ARHGAP23 cDNA ORF clone, Homo sapiens(human)

The following ARHGAP23 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ARHGAP23 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OHu107296 NM_001199417.2
Latest version!
Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu11813 NM_001199417.1
Latest version!
Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu50548 XM_006721991.1
Latest version!
Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu50549 XM_006721992.3
Latest version!
Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu50550 XM_006721993.3
Latest version!
Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu50551 XM_024450847.1
Latest version!
Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
OHu70739 XM_011525073.1
Latest version!
Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu70740 XM_011525074.2
Latest version!
Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu70741 XM_011525075.2
Latest version!
Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu70742 XM_011525076.2
Latest version!
Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
OHu70743 XM_011525077.2
Latest version!
Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
OHu87006 XM_017024902.1
Latest version!
Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    CloneID OHu107296
    Clone ID Related Accession (Same CDS sequence) NM_001199417.2
    Accession Version NM_001199417.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4476bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-30
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein 23
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC244153.3. On Nov 23, 2018 this sequence version replaced NM_001199417.1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. There are no full-length transcripts representing this exon combination; it is predicted based on tiled alignments of partial transcripts. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA1966682, SAMEA1968189 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000622683.5/ ENSP00000481862.1 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGAATGGAG TCGCCTTCTG CCTGGTCGGG ATCCCGCCCC GCCCGGAGCC CCGGCCCCCA 
    CAGCTGCCAC TGGGCCCAAG AGATGGGTGC TCTCCTAGGC GCCCCTTCCC CTGGCAGGGG
    CCGAGGACGC TGCTGCTGTA CAAAAGTCCC CAGGACGGCT TTGGCTTCAC TCTGCGCCAC
    TTCATCGTGT ACCCACCCGA GTCGGCCGTG CACTGCAGCC TGAAGGAGGA AGAGAATGGA
    GGCCGTGGAG GAGGACCCTC CCCCCGGTAC CGCCTGGAGC CCATGGACAC CATCTTTGTC
    AAGAATGTGA AGGAAGACGG CCCTGCCCAT AGGGCGGGGC TTCGCACAGG AGACCGGCTG
    GTAAAGGTGA ATGGGGAAAG CGTCATTGGG AAGACCTACT CTCAGGTCAT AGCTCTGATC
    CAGAATAGTG ATGACACTCT GGAGCTGTCT ATCATGCCCA AGGACGAGGA CATCCTCCAG
    CTGGCCTACT CCCAGGATGC CTACCTGAAA GGGAACGAGC CGTATTCTGG AGAGGCCCGC
    AGCATCCCAG AGCCACCCCC GATCTGCTAC CCCCGCAAGA CCTACGCCCC TCCTGCCCGG
    GCCTCCACCA GGGCCACTAT GGTGCCTGAG CCCACCTCAG CACTGCCCAG TGACCCCCGG
    AGTCCTGCTG CCTGGAGTGA CCCGGGGCTC CGTGTGCCAC CTGCTGCCCG TGCCCACCTG
    GACAACTCTT CCTTGGGGAT GAGCCAGCCC CGCCCCAGCC CTGGTGCCTT CCCCCACCTC
    TCCTCGGAGC CCCGGACGCC CCGTGCCTTC CCAGAGCCTG GCAGCCGGGT GCCCCCCAGC
    AGACTGGAGT GCCAGCAGGC CTTGTCACAC TGGCTGTCAA ACCAGGTACC CCGCCGGGCG
    GGGGAGAGAC GGTGCCCAGC CATGGCCCCC CGGGCCCGCA GCGCCTCCCA GGACCGGTTG
    GAGGAGGTGG CTGCCCCCCG CCCGTGGCCC TGCTCCACCT CCCAGGATGC TTTGAGCCAG
    CTGGGCCAGG AGGGCTGGCA CCGAGCTCGC TCAGATGACT ACTTGAGCCG GGCCACCCGT
    TCTGCCGAGG CACTGGGGCC AGGGGCACTG GTGTCACCCC GCTTTGAGCG GTGTGGCTGG
    GCTTCCCAGC GTTCGTCTGC CCGCACCCCC GCCTGCCCAA CTCGGGACCT GCCAGGGCCC
    CAGGCCCCAC CCCCGTCTGG CCTGCAGGGC CTGGATGACC TCGGGTACAT CGGCTACCGG
    AGCTACAGCC CATCATTCCA GCGCCGGACC GGCCTCCTCC ATGCGCTCTC CTTCCGGGAC
    TCACCCTTTG GGGGGCTGCC TACCTTCAAC CTGGCCCAGT CCCCTGCGTC ATTCCCACCA
    GAGGCCTCCG AGCCACCCAG GGTTGTACGG CCGGAACCCA GCACCCGGGC CCTGGAGCCT
    CCTGCGGAGG ATCGCGGCGA TGAGGTGGTC CTGAGGCAGA AGCCCCCGAC GGGCCGCAAG
    GTTCAGCTGA CCCCCGCAAG ACAGATGAAC CTTGGATTTG GTGACGAGTC CCCAGAGCCA
    GAGGCCAGTG GGCGAGGGGA ACGCCTGGGC AGGAAGGTGG CCCCTTTGGC CACCACCGAA
    GACTCTCTGG CTTCCATCCC CTTTATTGAT GAGCCCACCA GCCCCAGCAT TGACCTCCAA
    GCCAAGCACG TCCCTGCCTC TGCTGTGGTC TCCAGTGCCA TGAACTCAGC CCCTGTCCTG
    GGCACCAGCC CATCTTCCCC GACCTTCACT TTCACCCTCG GACGCCATTA CTCGCAGGAC
    TGCAGCAGCA TCAAGGCTGG CCGCCGCTCC TCCTACCTGC TGGCCATCAC CACGGAGCGC
    TCCAAGTCCT GCGATGATGG ACTCAACACC TTCCGCGACG AGGGCCGGGT TCTGCGGCGC
    CTGCCAAACC GCATACCCAG CCTGCGGATG CTCCGGAGCT TCTTCACCGA CGGGTCCTTG
    GATAGCTGGG GCACCTCTGA AGATGCTGAC GCTCCTTCTA AGCGACACTC AACCTCTGAC
    CTCTCAGATG CGACCTTCAG CGATATCAGG AGAGAAGGCT GGTTGTATTA TAAGCAGATT
    CTCACCAAGA AGGGGAAGAA AGCGGGCAGC GGCCTGCGCC AGTGGAAGCG GGTGTACGCC
    GCGCTGCGGG CGCGCTCGCT CTCGCTGAGC AAGGAGCGGC GGGAGCCCGG GCCGGCGGCG
    GCGGGGGCTG CGGCGGCCGG CGCAGGTGAG GACGAGGCGG CGCCCGTCTG CATCGGCTCC
    TGCCTCGTGG ACATCTCCTA CAGCGAGACC AAGAGGAGGC ACGTGTTCCG GCTGACCACC
    GCTGACTTCT GTGAATATCT CTTTCAGGCT GAGGACCGGG ATGACATGCT GGGCTGGATC
    AGAGCGATCC GGGAGAACAG CAGGGCCGAG GGCGAGGACC CCGGCTGTGC CAACCAAGCT
    CTGATCAGCA AGAAGCTTAA CGATTATCGC AAAGTGAGCC ATAGCTCTGG GCCCAAAGCT
    GATTCCTCCC CCAAAGGCTC TCGCGGCCTG GGGGGCCTCA AGTCTGAGTT CCTCAAGCAG
    AGTGCGGCAC GTGGCCTCAG GACTCAGGAC CTGCCCGCAG GGAGCAAGGA TGACAGTGCT
    GCAGCCCCCA AAACCCCCTG GGGCATCAAC ATCATCAAGA AAAATAAGAA GGCCGCTCCG
    AGGGCGTTTG GGGTCAGGCT GGAGGAGTGC CAGCCAGCCA CGGAGAACCA GCGCGTCCCC
    TTAATCGTGG CTGCATGCTG TCGCATTGTG GAGGCACGAG GGCTGGAGTC CACAGGCATT
    TACCGAGTGC CCGGCAACAA TGCAGTGGTG TCCAGCCTAC AGGAGCAGCT CAACCGCGGG
    CCTGGTGACA TCAACCTGCA GGATGAGCGC TGGCAAGACC TCAATGTGAT CAGCAGCCTG
    CTCAAGTCCT TCTTCCGAAA GCTGCCCGAG CCTCTTTTCA CTGATGACAA ATACAACGAC
    TTCATCGAGG CCAACCGCAT TGAGGACGCG CGGGAGCGAA TGAGGACGCT GCGGAAGCTG
    ATCCGGGATC TCCCAGGACA CTACTATGAA ACGCTCAAAT TCCTTGTGGG CCATCTCAAG
    ACCATCGCTG ACCACTCTGA GAAAAACAAG ATGGAACCCC GGAACCTGGC CCTGGTCTTT
    GGGCCGACAC TGGTGAGGAC GTCTGAGGAC AACATGACAG ACATGGTGAC CCACATGCCT
    GACCGCTACA AGATCGTGGA GACACTGATC CAGCACTCAG ACTGGTTCTT CAGTGACGAA
    GAGGACAAGG GAGAGAGAAC CCCTGTGGGC GACAAGGAGC CTCAGGCAGT GCCCAACATT
    GAGTACCTCC TGCCCAACAT TGGCAGGACA GTGCCCCCTG GCGACCCGGG GTCAGATTCT
    ACCACCTGTA GTTCAGCCAA GTCCAAGGGT TCGTGGGCCC CCAAGAAGGA GCCGTACGCC
    CGGGAGATGC TGGCGATCTC CTTCATCTCG GCCGTCAACC GCAAGCGCAA GAAGCGGCGG
    GAGGCGCGGG GGCTGGGCAG CAGCACCGAC GACGACTCGG AGCAGGAGGC GCACAAGCCT
    GGGGCGGGGG CCACAGCGCC GGGGACTCAG GAGCGGCCGC AGGGGCCGCT GCCTGGCGCC
    GTCGCCCCCG AGGCCCCCGG ACGCCTCAGT CCCCCGGCGG CGCCGGAGGA GCGGCCGGCC
    GCGGACACGC GCTCCATTGT GTCGGGCTAC TCCACCCTGT CCACCATGGA CCGCAGCGTG
    TGCTCGGGCG CTAGCGGTCG GCGGGCAGGG GCGGGGGATG AGGCGGACGA CGAGCGTAGC
    GAGCTGAGCC ACGTGGAGAC GGACACTGAG GGCGCGGCGG GCGCGGGGCC TGGGGGGCGC
    CTGACACGCC GGCCGTCCTT CAGCTCGCAC CACCTCATGC CCTGCGACAC TCTGGCGCGC
    CGCCGCCTGG CCCGGGGCCG CCCAGACGGC GAGGGCGCGG GCCGGGGCGG TCCCCGCGCC
    CCGGAGCCGC CCGGCTCGGC GTCGTCCAGC AGCCAGGAGT CGCTGCGGCC CCCGGCGGCG
    GCGCTGGCCT CCCGGCCCTC GCGCATGGAG GCGCTGCGTC TAAGGCTCCG CGGCACGGCG
    GACGACATGC TCGCCGTGCG CCTGCGGCGG CCGCTGTCGC CCGAGACCCG GCGGCGCCGG
    AGCAGCTGGC GCCGCCACAC CGTGGTGGTG CAGAGCCCGC TGACTGACCT CAACTTCAAC
    GAGTGGAAGG AGCTGGGCGG AGGGGGCCCC CCGGAGCCTG CGGGCGCGCG GGCGCACAGT
    GACAACAAGG ACTCCGGACT CAGCAGCCTG GAGTCCACCA AGGCGCGGGC CCCGTCGTCC
    GCTGCCTCGC AGCCGCCCGC GCCCGGGGAC ACGGGGTCCC TGCAGAGCCA GCCCCCGCGC
    CGCTCGGCCG CCTCCCGCCT GCATCAGTGT CTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001186346.1
    CDS23..4498
    Translation

    Target ORF information:

    RefSeq Version NM_001199417.2
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001199417.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGAATGGAG TCGCCTTCTG CCTGGTCGGG ATCCCGCCCC GCCCGGAGCC CCGGCCCCCA 
    CAGCTGCCAC TGGGCCCAAG AGATGGGTGC TCTCCTAGGC GCCCCTTCCC CTGGCAGGGG
    CCGAGGACGC TGCTGCTGTA CAAAAGTCCC CAGGACGGCT TTGGCTTCAC TCTGCGCCAC
    TTCATCGTGT ACCCACCCGA GTCGGCCGTG CACTGCAGCC TGAAGGAGGA AGAGAATGGA
    GGCCGTGGAG GAGGACCCTC CCCCCGGTAC CGCCTGGAGC CCATGGACAC CATCTTTGTC
    AAGAATGTGA AGGAAGACGG CCCTGCCCAT AGGGCGGGGC TTCGCACAGG AGACCGGCTG
    GTAAAGGTGA ATGGGGAAAG CGTCATTGGG AAGACCTACT CTCAGGTCAT AGCTCTGATC
    CAGAATAGTG ATGACACTCT GGAGCTGTCT ATCATGCCCA AGGACGAGGA CATCCTCCAG
    CTGGCCTACT CCCAGGATGC CTACCTGAAA GGGAACGAGC CGTATTCTGG AGAGGCCCGC
    AGCATCCCAG AGCCACCCCC GATCTGCTAC CCCCGCAAGA CCTACGCCCC TCCTGCCCGG
    GCCTCCACCA GGGCCACTAT GGTGCCTGAG CCCACCTCAG CACTGCCCAG TGACCCCCGG
    AGTCCTGCTG CCTGGAGTGA CCCGGGGCTC CGTGTGCCAC CTGCTGCCCG TGCCCACCTG
    GACAACTCTT CCTTGGGGAT GAGCCAGCCC CGCCCCAGCC CTGGTGCCTT CCCCCACCTC
    TCCTCGGAGC CCCGGACGCC CCGTGCCTTC CCAGAGCCTG GCAGCCGGGT GCCCCCCAGC
    AGACTGGAGT GCCAGCAGGC CTTGTCACAC TGGCTGTCAA ACCAGGTACC CCGCCGGGCG
    GGGGAGAGAC GGTGCCCAGC CATGGCCCCC CGGGCCCGCA GCGCCTCCCA GGACCGGTTG
    GAGGAGGTGG CTGCCCCCCG CCCGTGGCCC TGCTCCACCT CCCAGGATGC TTTGAGCCAG
    CTGGGCCAGG AGGGCTGGCA CCGAGCTCGC TCAGATGACT ACTTGAGCCG GGCCACCCGT
    TCTGCCGAGG CACTGGGGCC AGGGGCACTG GTGTCACCCC GCTTTGAGCG GTGTGGCTGG
    GCTTCCCAGC GTTCGTCTGC CCGCACCCCC GCCTGCCCAA CTCGGGACCT GCCAGGGCCC
    CAGGCCCCAC CCCCGTCTGG CCTGCAGGGC CTGGATGACC TCGGGTACAT CGGCTACCGG
    AGCTACAGCC CATCATTCCA GCGCCGGACC GGCCTCCTCC ATGCGCTCTC CTTCCGGGAC
    TCACCCTTTG GGGGGCTGCC TACCTTCAAC CTGGCCCAGT CCCCTGCGTC ATTCCCACCA
    GAGGCCTCCG AGCCACCCAG GGTTGTACGG CCGGAACCCA GCACCCGGGC CCTGGAGCCT
    CCTGCGGAGG ATCGCGGCGA TGAGGTGGTC CTGAGGCAGA AGCCCCCGAC GGGCCGCAAG
    GTTCAGCTGA CCCCCGCAAG ACAGATGAAC CTTGGATTTG GTGACGAGTC CCCAGAGCCA
    GAGGCCAGTG GGCGAGGGGA ACGCCTGGGC AGGAAGGTGG CCCCTTTGGC CACCACCGAA
    GACTCTCTGG CTTCCATCCC CTTTATTGAT GAGCCCACCA GCCCCAGCAT TGACCTCCAA
    GCCAAGCACG TCCCTGCCTC TGCTGTGGTC TCCAGTGCCA TGAACTCAGC CCCTGTCCTG
    GGCACCAGCC CATCTTCCCC GACCTTCACT TTCACCCTCG GACGCCATTA CTCGCAGGAC
    TGCAGCAGCA TCAAGGCTGG CCGCCGCTCC TCCTACCTGC TGGCCATCAC CACGGAGCGC
    TCCAAGTCCT GCGATGATGG ACTCAACACC TTCCGCGACG AGGGCCGGGT TCTGCGGCGC
    CTGCCAAACC GCATACCCAG CCTGCGGATG CTCCGGAGCT TCTTCACCGA CGGGTCCTTG
    GATAGCTGGG GCACCTCTGA AGATGCTGAC GCTCCTTCTA AGCGACACTC AACCTCTGAC
    CTCTCAGATG CGACCTTCAG CGATATCAGG AGAGAAGGCT GGTTGTATTA TAAGCAGATT
    CTCACCAAGA AGGGGAAGAA AGCGGGCAGC GGCCTGCGCC AGTGGAAGCG GGTGTACGCC
    GCGCTGCGGG CGCGCTCGCT CTCGCTGAGC AAGGAGCGGC GGGAGCCCGG GCCGGCGGCG
    GCGGGGGCTG CGGCGGCCGG CGCAGGTGAG GACGAGGCGG CGCCCGTCTG CATCGGCTCC
    TGCCTCGTGG ACATCTCCTA CAGCGAGACC AAGAGGAGGC ACGTGTTCCG GCTGACCACC
    GCTGACTTCT GTGAATATCT CTTTCAGGCT GAGGACCGGG ATGACATGCT GGGCTGGATC
    AGAGCGATCC GGGAGAACAG CAGGGCCGAG GGCGAGGACC CCGGCTGTGC CAACCAAGCT
    CTGATCAGCA AGAAGCTTAA CGATTATCGC AAAGTGAGCC ATAGCTCTGG GCCCAAAGCT
    GATTCCTCCC CCAAAGGCTC TCGCGGCCTG GGGGGCCTCA AGTCTGAGTT CCTCAAGCAG
    AGTGCGGCAC GTGGCCTCAG GACTCAGGAC CTGCCCGCAG GGAGCAAGGA TGACAGTGCT
    GCAGCCCCCA AAACCCCCTG GGGCATCAAC ATCATCAAGA AAAATAAGAA GGCCGCTCCG
    AGGGCGTTTG GGGTCAGGCT GGAGGAGTGC CAGCCAGCCA CGGAGAACCA GCGCGTCCCC
    TTAATCGTGG CTGCATGCTG TCGCATTGTG GAGGCACGAG GGCTGGAGTC CACAGGCATT
    TACCGAGTGC CCGGCAACAA TGCAGTGGTG TCCAGCCTAC AGGAGCAGCT CAACCGCGGG
    CCTGGTGACA TCAACCTGCA GGATGAGCGC TGGCAAGACC TCAATGTGAT CAGCAGCCTG
    CTCAAGTCCT TCTTCCGAAA GCTGCCCGAG CCTCTTTTCA CTGATGACAA ATACAACGAC
    TTCATCGAGG CCAACCGCAT TGAGGACGCG CGGGAGCGAA TGAGGACGCT GCGGAAGCTG
    ATCCGGGATC TCCCAGGACA CTACTATGAA ACGCTCAAAT TCCTTGTGGG CCATCTCAAG
    ACCATCGCTG ACCACTCTGA GAAAAACAAG ATGGAACCCC GGAACCTGGC CCTGGTCTTT
    GGGCCGACAC TGGTGAGGAC GTCTGAGGAC AACATGACAG ACATGGTGAC CCACATGCCT
    GACCGCTACA AGATCGTGGA GACACTGATC CAGCACTCAG ACTGGTTCTT CAGTGACGAA
    GAGGACAAGG GAGAGAGAAC CCCTGTGGGC GACAAGGAGC CTCAGGCAGT GCCCAACATT
    GAGTACCTCC TGCCCAACAT TGGCAGGACA GTGCCCCCTG GCGACCCGGG GTCAGATTCT
    ACCACCTGTA GTTCAGCCAA GTCCAAGGGT TCGTGGGCCC CCAAGAAGGA GCCGTACGCC
    CGGGAGATGC TGGCGATCTC CTTCATCTCG GCCGTCAACC GCAAGCGCAA GAAGCGGCGG
    GAGGCGCGGG GGCTGGGCAG CAGCACCGAC GACGACTCGG AGCAGGAGGC GCACAAGCCT
    GGGGCGGGGG CCACAGCGCC GGGGACTCAG GAGCGGCCGC AGGGGCCGCT GCCTGGCGCC
    GTCGCCCCCG AGGCCCCCGG ACGCCTCAGT CCCCCGGCGG CGCCGGAGGA GCGGCCGGCC
    GCGGACACGC GCTCCATTGT GTCGGGCTAC TCCACCCTGT CCACCATGGA CCGCAGCGTG
    TGCTCGGGCG CTAGCGGTCG GCGGGCAGGG GCGGGGGATG AGGCGGACGA CGAGCGTAGC
    GAGCTGAGCC ACGTGGAGAC GGACACTGAG GGCGCGGCGG GCGCGGGGCC TGGGGGGCGC
    CTGACACGCC GGCCGTCCTT CAGCTCGCAC CACCTCATGC CCTGCGACAC TCTGGCGCGC
    CGCCGCCTGG CCCGGGGCCG CCCAGACGGC GAGGGCGCGG GCCGGGGCGG TCCCCGCGCC
    CCGGAGCCGC CCGGCTCGGC GTCGTCCAGC AGCCAGGAGT CGCTGCGGCC CCCGGCGGCG
    GCGCTGGCCT CCCGGCCCTC GCGCATGGAG GCGCTGCGTC TAAGGCTCCG CGGCACGGCG
    GACGACATGC TCGCCGTGCG CCTGCGGCGG CCGCTGTCGC CCGAGACCCG GCGGCGCCGG
    AGCAGCTGGC GCCGCCACAC CGTGGTGGTG CAGAGCCCGC TGACTGACCT CAACTTCAAC
    GAGTGGAAGG AGCTGGGCGG AGGGGGCCCC CCGGAGCCTG CGGGCGCGCG GGCGCACAGT
    GACAACAAGG ACTCCGGACT CAGCAGCCTG GAGTCCACCA AGGCGCGGGC CCCGTCGTCC
    GCTGCCTCGC AGCCGCCCGC GCCCGGGGAC ACGGGGTCCC TGCAGAGCCA GCCCCCGCGC
    CGCTCGGCCG CCTCCCGCCT GCATCAGTGT CTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu11813
    Clone ID Related Accession (Same CDS sequence) NM_001199417.1
    Accession Version NM_001199417.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4476bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-10-01
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein 23
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC244153.3, EG328307.1, CN429251.1, CN429246.1, BM548592.1, BY795315.2, DN831435.1, CN429249.1 and R42869.1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. There are no full-length transcripts representing this exon combination; it is predicted based on tiled alignments of partial transcripts. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA1966682, SAMEA1968189 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGAATGGAG TCGCCTTCTG CCTGGTCGGG ATCCCGCCCC GCCCGGAGCC CCGGCCCCCA 
    CAGCTGCCAC TGGGCCCAAG AGATGGGTGC TCTCCTAGGC GCCCCTTCCC CTGGCAGGGG
    CCGAGGACGC TGCTGCTGTA CAAAAGTCCC CAGGACGGCT TTGGCTTCAC TCTGCGCCAC
    TTCATCGTGT ACCCACCCGA GTCGGCCGTG CACTGCAGCC TGAAGGAGGA AGAGAATGGA
    GGCCGTGGAG GAGGACCCTC CCCCCGGTAC CGCCTGGAGC CCATGGACAC CATCTTTGTC
    AAGAATGTGA AGGAAGACGG CCCTGCCCAT AGGGCGGGGC TTCGCACAGG AGACCGGCTG
    GTAAAGGTGA ATGGGGAAAG CGTCATTGGG AAGACCTACT CTCAGGTCAT AGCTCTGATC
    CAGAATAGTG ATGACACTCT GGAGCTGTCT ATCATGCCCA AGGACGAGGA CATCCTCCAG
    CTGGCCTACT CCCAGGATGC CTACCTGAAA GGGAACGAGC CGTATTCTGG AGAGGCCCGC
    AGCATCCCAG AGCCACCGCC GATCTGCTAC CCCCGCAAGA CCTACGCCCC TCCTGCCCGG
    GCCTCCACCA GGGCCACTAT GGTGCCTGAG CCCACCTCAG CACTGCCCAG TGACCCCCGG
    AGTCCTGCTG CCTGGAGTGA CCCGGGGCTC CGTGTGCCAC CTGCTGCCCG TGCCCACCTG
    GACAACTCTT CCTTGGGGAT GAGCCAGCCC CGCCCCAGCC CTGGTGCCTT CCCCCACCTC
    TCCTCGGAGC CCCGGACGCC CCGTGCCTTC CCAGAGCCTG GCAGCCGGGT GCCCCCCAGC
    AGACTGGAGT GCCAGCAGGC CTTGTCACAC TGGCTGTCAA ACCAGGTACC CCGCCGGGCG
    GGGGAGAGAC GGTGCCCAGC CATGGCCCCC CGGGCCCGCA GCGCCTCCCA GGACCGGTTG
    GAGGAGGTGG CTGCCCCCCG CCCGTGGCCC TGCTCCACCT CCCAGGATGC TTTGAGCCAG
    CTGGGCCAGG AGGGCTGGCA CCGAGCTCGC TCAGATGACT ACTTGAGCCG GGCCACCCGT
    TCTGCCGAGG CACTGGGGCC AGGGGCACTG GTGTCACCCC GCTTTGAGCG GTGTGGCTGG
    GCTTCCCAGC GTTCGTCTGC CCGCACCCCC GCCTGCCCAA CTCGGGACCT GCCAGGGCCC
    CAGGCCCCAC CCCCGTCTGG CCTGCAGGGC CTGGATGACC TCGGGTACAT CGGCTACCGG
    AGCTACAGCC CATCATTCCA GCGCCGGACC GGCCTCCTCC ATGCGCTCTC CTTCCGGGAC
    TCACCCTTTG GGGGGCTGCC TACCTTCAAC CTGGCCCAGT CCCCTGCGTC ATTCCCACCA
    GAGGCCTCCG AGCCACCCAG GGTTGTACGG CCGGAACCCA GCACCCGGGC CCTGGAGCCT
    CCTGCGGAGG ATCGCGGCGA TGAGGTGGTC CTGAGGCAGA AGCCCCCGAC GGGCCGCAAG
    GTTCAGCTGA CCCCCGCAAG ACAGATGAAC CTTGGATTTG GTGACGAGTC CCCAGAGCCA
    GAGGCCAGTG GGCGAGGGGA ACGCCTGGGC AGGAAGGTGG CCCCTTTGGC CACCACCGAA
    GACTCTCTGG CTTCCATCCC CTTTATTGAT GAGCCCACCA GCCCCAGCAT TGACCTCCAA
    GCCAAGCACG TCCCTGCCTC TGCTGTGGTC TCCAGTGCCA TGAACTCAGC CCCTGTCCTG
    GGCACCAGCC CATCTTCCCC GACCTTCACT TTCACCCTCG GACGCCATTA CTCGCAGGAC
    TGCAGCAGCA TCAAGGCTGG CCGCCGCTCC TCCTACCTGC TGGCCATCAC CACGGAGCGC
    TCCAAGTCCT GCGATGATGG ACTCAACACC TTCCGCGACG AGGGCCGGGT TCTGCGGCGC
    CTGCCAAACC GCATACCCAG CCTGCGGATG CTCCGGAGCT TCTTCACCGA CGGGTCCTTG
    GATAGCTGGG GCACCTCTGA AGATGCTGAC GCTCCTTCTA AGCGACACTC AACCTCTGAC
    CTCTCAGATG CGACCTTCAG CGATATCAGG AGAGAAGGCT GGTTGTATTA TAAGCAGATT
    CTCACCAAGA AGGGGAAGAA AGCGGGCAGC GGCCTGCGCC AGTGGAAGCG GGTGTACGCC
    GCGCTGCGGG CGCGCTCGCT CTCGCTGAGC AAGGAGCGGC GGGAGCCCGG GCCGGCGGCG
    GCGGGGGCTG CGGCGGCCGG CGCAGGTGAG GACGAGGCGG CGCCCGTCTG CATCGGCTCC
    TGCCTCGTGG ACATCTCCTA CAGCGAGACC AAGAGGAGGC ACGTGTTCCG GCTGACCACC
    GCTGACTTCT GTGAATATCT CTTTCAGGCT GAGGACCGGG ATGACATGCT GGGCTGGATC
    AGAGCGATCC GGGAGAACAG CAGGGCCGAG GGCGAGGACC CCGGCTGTGC CAACCAAGCT
    CTGATCAGCA AGAAGCTTAA CGATTATCGC AAAGTGAGCC ATAGCTCTGG GCCCAAAGCT
    GATTCCTCCC CCAAAGGCTC TCGCGGCCTG GGGGGCCTCA AGTCTGAGTT CCTCAAGCAG
    AGTGCGGCAC GTGGCCTCAG GACTCAGGAC CTGCCCGCAG GGAGCAAGGA TGACAGTGCT
    GCAGCCCCCA AAACCCCCTG GGGCATCAAC ATCATCAAGA AAAATAAGAA GGCCGCTCCG
    AGGGCGTTTG GGGTCAGGCT GGAGGAGTGC CAGCCAGCCA CGGAGAACCA GCGCGTCCCC
    TTAATCGTGG CTGCATGCTG TCGCATTGTG GAGGCACGAG GGCTGGAGTC CACAGGCATT
    TACCGAGTGC CCGGCAACAA TGCAGTGGTG TCCAGCCTAC AGGAGCAGCT CAACCGCGGG
    CCTGGTGACA TCAACCTGCA GGATGAGCGC TGGCAAGACC TCAATGTGAT CAGCAGCCTG
    CTCAAGTCCT TCTTCCGAAA GCTGCCCGAG CCTCTTTTCA CTGATGACAA ATACAACGAC
    TTCATCGAGG CCAACCGCAT TGAGGACGCG CGGGAGCGAA TGAGGACGCT GCGGAAGCTG
    ATCCGGGATC TCCCAGGACA CTACTATGAA ACGCTCAAAT TCCTTGTGGG CCATCTCAAG
    ACCATCGCTG ACCACTCTGA GAAAAACAAG ATGGAACCCC GGAACCTGGC CCTGGTCTTT
    GGGCCGACAC TGGTGAGGAC GTCTGAGGAC AACATGACAG ACATGGTGAC CCACATGCCT
    GACCGCTACA AGATCGTGGA GACACTGATC CAGCACTCAG ACTGGTTCTT CAGTGACGAA
    GAGGACAAGG GAGAGAGAAC CCCTGTGGGC GACAAGGAGC CTCAGGCAGT GCCCAACATT
    GAGTACCTCC TGCCCAACAT TGGCAGGACA GTGCCCCCTG GCGACCCGGG GTCAGATTCT
    ACCACCTGTA GTTCAGCCAA GTCCAAGGGT TCGTGGGCCC CCAAGAAGGA GCCGTACGCC
    CGGGAGATGC TGGCGATCTC CTTCATCTCG GCCGTCAACC GCAAGCGCAA GAAGCGGCGG
    GAGGCGCGGG GGCTGGGCAG CAGCACCGAC GACGACTCGG AGCAGGAGGC GCACAAGCCT
    GGGGCGGGGG CCACAGCGCC GGGGACTCAG GAGCGGCCGC AGGGGCCGCT GCCTGGCGCC
    GTCGCCCCCG AGGCCCCCGG ACGCCTCAGT CCCCCGGCGG CGCCGGAGGA GCGGCCGGCC
    GCGGACACGC GCTCCATTGT GTCGGGCTAC TCCACCCTGT CCACCATGGA CCGCAGCGTG
    TGCTCGGGCG CTAGCGGTCG GCGGGCAGGG GCGGGGGATG AGGCGGACGA CGAGCGTAGC
    GAGCTGAGCC ACGTGGAGAC GGACACTGAG GGCGCGGCGG GCGCGGGGCC TGGGGGGCGC
    CTGACACGCC GGCCGTCCTT CAGCTCGCAC CACCTCATGC CCTGCGACAC TCTGGCGCGC
    CGCCGCCTGG CCCGGGGCCG CCCAGACGGC GAGGGCGCGG GCCGGGGCGG TCCCCGCGCC
    CCGGAGCCGC CCGGCTCGGC GTCGTCCAGC AGCCAGGAGT CGCTGCGGCC CCCGGCGGCG
    GCGCTGGCCT CCCGGCCCTC GCGCATGGAG GCGCTGCGTC TAAGGCTCCG CGGCACGGCG
    GACGACATGC TCGCCGTGCG CCTGCGGCGG CCGCTGTCGC CCGAGACCCG GCGGCGCCGG
    AGCAGCTGGC GCCGCCACAC CGTGGTGGTG CAGAGCCCGC TGACTGACCT CAACTTCAAC
    GAGTGGAAGG AGCTGGGCGG AGGGGGCCCC CCGGAGCCTG CGGGCGCGCG GGCGCACAGT
    GACAACAAGG ACTCCGGACT CAGCAGCCTG GAGTCCACCA AGGCGCGGGC CCCGTCGTCC
    GCTGCCTCGC AGCCGCCCGC GCCCGGGGAC ACGGGGTCCC TGCAGAGCCA GCCCCCGCGC
    CGCTCGGCCG CCTCCCGCCT GCATCAGTGT CTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001186346.1
    CDS11..4486
    Translation

    Target ORF information:

    RefSeq Version NM_001199417.1
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001199417.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGAATGGAG TCGCCTTCTG CCTGGTCGGG ATCCCGCCCC GCCCGGAGCC CCGGCCCCCA 
    CAGCTGCCAC TGGGCCCAAG AGATGGGTGC TCTCCTAGGC GCCCCTTCCC CTGGCAGGGG
    CCGAGGACGC TGCTGCTGTA CAAAAGTCCC CAGGACGGCT TTGGCTTCAC TCTGCGCCAC
    TTCATCGTGT ACCCACCCGA GTCGGCCGTG CACTGCAGCC TGAAGGAGGA AGAGAATGGA
    GGCCGTGGAG GAGGACCCTC CCCCCGGTAC CGCCTGGAGC CCATGGACAC CATCTTTGTC
    AAGAATGTGA AGGAAGACGG CCCTGCCCAT AGGGCGGGGC TTCGCACAGG AGACCGGCTG
    GTAAAGGTGA ATGGGGAAAG CGTCATTGGG AAGACCTACT CTCAGGTCAT AGCTCTGATC
    CAGAATAGTG ATGACACTCT GGAGCTGTCT ATCATGCCCA AGGACGAGGA CATCCTCCAG
    CTGGCCTACT CCCAGGATGC CTACCTGAAA GGGAACGAGC CGTATTCTGG AGAGGCCCGC
    AGCATCCCAG AGCCACCGCC GATCTGCTAC CCCCGCAAGA CCTACGCCCC TCCTGCCCGG
    GCCTCCACCA GGGCCACTAT GGTGCCTGAG CCCACCTCAG CACTGCCCAG TGACCCCCGG
    AGTCCTGCTG CCTGGAGTGA CCCGGGGCTC CGTGTGCCAC CTGCTGCCCG TGCCCACCTG
    GACAACTCTT CCTTGGGGAT GAGCCAGCCC CGCCCCAGCC CTGGTGCCTT CCCCCACCTC
    TCCTCGGAGC CCCGGACGCC CCGTGCCTTC CCAGAGCCTG GCAGCCGGGT GCCCCCCAGC
    AGACTGGAGT GCCAGCAGGC CTTGTCACAC TGGCTGTCAA ACCAGGTACC CCGCCGGGCG
    GGGGAGAGAC GGTGCCCAGC CATGGCCCCC CGGGCCCGCA GCGCCTCCCA GGACCGGTTG
    GAGGAGGTGG CTGCCCCCCG CCCGTGGCCC TGCTCCACCT CCCAGGATGC TTTGAGCCAG
    CTGGGCCAGG AGGGCTGGCA CCGAGCTCGC TCAGATGACT ACTTGAGCCG GGCCACCCGT
    TCTGCCGAGG CACTGGGGCC AGGGGCACTG GTGTCACCCC GCTTTGAGCG GTGTGGCTGG
    GCTTCCCAGC GTTCGTCTGC CCGCACCCCC GCCTGCCCAA CTCGGGACCT GCCAGGGCCC
    CAGGCCCCAC CCCCGTCTGG CCTGCAGGGC CTGGATGACC TCGGGTACAT CGGCTACCGG
    AGCTACAGCC CATCATTCCA GCGCCGGACC GGCCTCCTCC ATGCGCTCTC CTTCCGGGAC
    TCACCCTTTG GGGGGCTGCC TACCTTCAAC CTGGCCCAGT CCCCTGCGTC ATTCCCACCA
    GAGGCCTCCG AGCCACCCAG GGTTGTACGG CCGGAACCCA GCACCCGGGC CCTGGAGCCT
    CCTGCGGAGG ATCGCGGCGA TGAGGTGGTC CTGAGGCAGA AGCCCCCGAC GGGCCGCAAG
    GTTCAGCTGA CCCCCGCAAG ACAGATGAAC CTTGGATTTG GTGACGAGTC CCCAGAGCCA
    GAGGCCAGTG GGCGAGGGGA ACGCCTGGGC AGGAAGGTGG CCCCTTTGGC CACCACCGAA
    GACTCTCTGG CTTCCATCCC CTTTATTGAT GAGCCCACCA GCCCCAGCAT TGACCTCCAA
    GCCAAGCACG TCCCTGCCTC TGCTGTGGTC TCCAGTGCCA TGAACTCAGC CCCTGTCCTG
    GGCACCAGCC CATCTTCCCC GACCTTCACT TTCACCCTCG GACGCCATTA CTCGCAGGAC
    TGCAGCAGCA TCAAGGCTGG CCGCCGCTCC TCCTACCTGC TGGCCATCAC CACGGAGCGC
    TCCAAGTCCT GCGATGATGG ACTCAACACC TTCCGCGACG AGGGCCGGGT TCTGCGGCGC
    CTGCCAAACC GCATACCCAG CCTGCGGATG CTCCGGAGCT TCTTCACCGA CGGGTCCTTG
    GATAGCTGGG GCACCTCTGA AGATGCTGAC GCTCCTTCTA AGCGACACTC AACCTCTGAC
    CTCTCAGATG CGACCTTCAG CGATATCAGG AGAGAAGGCT GGTTGTATTA TAAGCAGATT
    CTCACCAAGA AGGGGAAGAA AGCGGGCAGC GGCCTGCGCC AGTGGAAGCG GGTGTACGCC
    GCGCTGCGGG CGCGCTCGCT CTCGCTGAGC AAGGAGCGGC GGGAGCCCGG GCCGGCGGCG
    GCGGGGGCTG CGGCGGCCGG CGCAGGTGAG GACGAGGCGG CGCCCGTCTG CATCGGCTCC
    TGCCTCGTGG ACATCTCCTA CAGCGAGACC AAGAGGAGGC ACGTGTTCCG GCTGACCACC
    GCTGACTTCT GTGAATATCT CTTTCAGGCT GAGGACCGGG ATGACATGCT GGGCTGGATC
    AGAGCGATCC GGGAGAACAG CAGGGCCGAG GGCGAGGACC CCGGCTGTGC CAACCAAGCT
    CTGATCAGCA AGAAGCTTAA CGATTATCGC AAAGTGAGCC ATAGCTCTGG GCCCAAAGCT
    GATTCCTCCC CCAAAGGCTC TCGCGGCCTG GGGGGCCTCA AGTCTGAGTT CCTCAAGCAG
    AGTGCGGCAC GTGGCCTCAG GACTCAGGAC CTGCCCGCAG GGAGCAAGGA TGACAGTGCT
    GCAGCCCCCA AAACCCCCTG GGGCATCAAC ATCATCAAGA AAAATAAGAA GGCCGCTCCG
    AGGGCGTTTG GGGTCAGGCT GGAGGAGTGC CAGCCAGCCA CGGAGAACCA GCGCGTCCCC
    TTAATCGTGG CTGCATGCTG TCGCATTGTG GAGGCACGAG GGCTGGAGTC CACAGGCATT
    TACCGAGTGC CCGGCAACAA TGCAGTGGTG TCCAGCCTAC AGGAGCAGCT CAACCGCGGG
    CCTGGTGACA TCAACCTGCA GGATGAGCGC TGGCAAGACC TCAATGTGAT CAGCAGCCTG
    CTCAAGTCCT TCTTCCGAAA GCTGCCCGAG CCTCTTTTCA CTGATGACAA ATACAACGAC
    TTCATCGAGG CCAACCGCAT TGAGGACGCG CGGGAGCGAA TGAGGACGCT GCGGAAGCTG
    ATCCGGGATC TCCCAGGACA CTACTATGAA ACGCTCAAAT TCCTTGTGGG CCATCTCAAG
    ACCATCGCTG ACCACTCTGA GAAAAACAAG ATGGAACCCC GGAACCTGGC CCTGGTCTTT
    GGGCCGACAC TGGTGAGGAC GTCTGAGGAC AACATGACAG ACATGGTGAC CCACATGCCT
    GACCGCTACA AGATCGTGGA GACACTGATC CAGCACTCAG ACTGGTTCTT CAGTGACGAA
    GAGGACAAGG GAGAGAGAAC CCCTGTGGGC GACAAGGAGC CTCAGGCAGT GCCCAACATT
    GAGTACCTCC TGCCCAACAT TGGCAGGACA GTGCCCCCTG GCGACCCGGG GTCAGATTCT
    ACCACCTGTA GTTCAGCCAA GTCCAAGGGT TCGTGGGCCC CCAAGAAGGA GCCGTACGCC
    CGGGAGATGC TGGCGATCTC CTTCATCTCG GCCGTCAACC GCAAGCGCAA GAAGCGGCGG
    GAGGCGCGGG GGCTGGGCAG CAGCACCGAC GACGACTCGG AGCAGGAGGC GCACAAGCCT
    GGGGCGGGGG CCACAGCGCC GGGGACTCAG GAGCGGCCGC AGGGGCCGCT GCCTGGCGCC
    GTCGCCCCCG AGGCCCCCGG ACGCCTCAGT CCCCCGGCGG CGCCGGAGGA GCGGCCGGCC
    GCGGACACGC GCTCCATTGT GTCGGGCTAC TCCACCCTGT CCACCATGGA CCGCAGCGTG
    TGCTCGGGCG CTAGCGGTCG GCGGGCAGGG GCGGGGGATG AGGCGGACGA CGAGCGTAGC
    GAGCTGAGCC ACGTGGAGAC GGACACTGAG GGCGCGGCGG GCGCGGGGCC TGGGGGGCGC
    CTGACACGCC GGCCGTCCTT CAGCTCGCAC CACCTCATGC CCTGCGACAC TCTGGCGCGC
    CGCCGCCTGG CCCGGGGCCG CCCAGACGGC GAGGGCGCGG GCCGGGGCGG TCCCCGCGCC
    CCGGAGCCGC CCGGCTCGGC GTCGTCCAGC AGCCAGGAGT CGCTGCGGCC CCCGGCGGCG
    GCGCTGGCCT CCCGGCCCTC GCGCATGGAG GCGCTGCGTC TAAGGCTCCG CGGCACGGCG
    GACGACATGC TCGCCGTGCG CCTGCGGCGG CCGCTGTCGC CCGAGACCCG GCGGCGCCGG
    AGCAGCTGGC GCCGCCACAC CGTGGTGGTG CAGAGCCCGC TGACTGACCT CAACTTCAAC
    GAGTGGAAGG AGCTGGGCGG AGGGGGCCCC CCGGAGCCTG CGGGCGCGCG GGCGCACAGT
    GACAACAAGG ACTCCGGACT CAGCAGCCTG GAGTCCACCA AGGCGCGGGC CCCGTCGTCC
    GCTGCCTCGC AGCCGCCCGC GCCCGGGGAC ACGGGGTCCC TGCAGAGCCA GCCCCCGCGC
    CGCTCGGCCG CCTCCCGCCT GCATCAGTGT CTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu50548
    Clone ID Related Accession (Same CDS sequence) XM_006721991.1
    Accession Version XM_006721991.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4422bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein 23 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGAGCAGC TGCCACTGGG CCCAAGAGAT GGGTGCTCTC CTAGGCGCCC CTTCCCCTGG 
    CAGGGGCCGA GGACGCTGCT GCTGTACAAA AGTCCCCAGG ACGGCTTTGG CTTCACTCTG
    CGCCACTTCA TCGTGTACCC ACCCGAGTCG GCCGTGCACT GCAGCCTGAA GGAGGAAGAG
    AATGGAGGCC GTGGAGGAGG ACCCTCCCCC CGGTACCGCC TGGAGCCCAT GGACACCATC
    TTTGTCAAGA ATGTGAAGGA AGACGGCCCT GCCCATAGGG CGGGGCTTCG CACAGGAGAC
    CGGCTGGTAA AGGTGAATGG GGAAAGCGTC ATTGGGAAGA CCTACTCTCA GGTCATAGCT
    CTGATCCAGA ATAGTGATGA CACTCTGGAG CTGTCTATCA TGCCCAAGGA CGAGGACATC
    CTCCAGCTGG CCTACTCCCA GGATGCCTAC CTGAAAGGGA ACGAGCCGTA TTCTGGAGAG
    GCCCGCAGCA TCCCAGAGCC ACCCCCGATC TGCTACCCCC GCAAGACCTA CGCCCCTCCT
    GCCCGGGCCT CCACCAGGGC CACTATGGTG CCTGAGCCCA CCTCAGCACT GCCCAGTGAC
    CCCCGGAGTC CTGCTGCCTG GAGTGACCCG GGGCTCCGTG TGCCACCTGC TGCCCGTGCC
    CACCTGGACA ACTCTTCCTT GGGGATGAGC CAGCCCCGCC CCAGCCCTGG TGCCTTCCCC
    CACCTCTCCT CGGAGCCCCG GACGCCCCGT GCCTTCCCAG AGCCTGGCAG CCGGGTGCCC
    CCCAGCAGAC TGGAGTGCCA GCAGGCCTTG TCACACTGGC TGTCAAACCA GGTACCCCGC
    CGGGCGGGGG AGAGACGGTG CCCAGCCATG GCCCCCCGGG CCCGCAGCGC CTCCCAGGAC
    CGGTTGGAGG AGGTGGCTGC CCCCCGCCCG TGGCCCTGCT CCACCTCCCA GGATGCTTTG
    AGCCAGCTGG GCCAGGAGGG CTGGCACCGA GCTCGCTCAG ATGACTACTT GAGCCGGGCC
    ACCCGTTCTG CCGAGGCACT GGGGCCAGGG GCACTGGTGT CACCCCGCTT TGAGCGGTGT
    GGCTGGGCTT CCCAGCGTTC GTCTGCCCGC ACCCCCGCCT GCCCAACTCG GGACCTGCCA
    GGGCCCCAGG CCCCACCCCC GTCTGGCCTG CAGGGCCTGG ATGACCTCGG GTACATCGGC
    TACCGGAGCT ACAGCCCATC ATTCCAGCGC CGGACCGGCC TCCTCCATGC GCTCTCCTTC
    CGGGACTCAC CCTTTGGGGG GCTGCCTACC TTCAACCTGG CCCAGTCCCC TGCGTCATTC
    CCACCAGAGG CCTCCGAGCC ACCCAGGGTT GTACGGCCGG AACCCAGCAC CCGGGCCCTG
    GAGCCTCCTG CGGAGGATCG CGGCGATGAG GTGGTCCTGA GGCAGAAGCC CCCGACGGGC
    CGCAAGGTTC AGCTGACCCC CGCAAGACAG ATGAACCTTG GATTTGGTGA CGAGTCCCCA
    GAGCCAGAGG CCAGTGGGCG AGGGGAACGC CTGGGCAGGA AGGTGGCCCC TTTGGCCACC
    ACCGAAGACT CTCTGGCTTC CATCCCCTTT ATTGATGAGC CCACCAGCCC CAGCATTGAC
    CTCCAAGCCA AGCACGTCCC TGCCTCTGCT GTGGTCTCCA GTGCCATGAA CTCAGCCCCT
    GTCCTGGGCA CCAGCCCATC TTCCCCGACC TTCACTTTCA CCCTCGGACG CCATTACTCG
    CAGGACTGCA GCAGCATCAA GGCTGGCCGC CGCTCCTCCT ACCTGCTGGC CATCACCACG
    GAGCGCTCCA AGTCCTGCGA TGATGGACTC AACACCTTCC GCGACGAGGG CCGGGTTCTG
    CGGCGCCTGC CAAACCGCAT ACCCAGCCTG CGGATGCTCC GGAGCTTCTT CACCGACGGG
    TCCTTGGATA GCTGGGGCAC CTCTGAAGAT GCTGACGCTC CTTCTAAGCG ACACTCAACC
    TCTGACCTCT CAGATGCGAC CTTCAGCGAT ATCAGGAGAG AAGGCTGGTT GTATTATAAG
    CAGATTCTCA CCAAGAAGGG GAAGAAAGCG GGCAGCGGCC TGCGCCAGTG GAAGCGGGTG
    TACGCCGCGC TGCGGGCGCG CTCGCTCTCG CTGAGCAAGG AGCGGCGGGA GCCCGGGCCG
    GCGGCGGCGG GGGCTGCGGC GGCCGGCGCA GGTGAGGACG AGGCGGCGCC CGTCTGCATC
    GGCTCCTGCC TCGTGGACAT CTCCTACAGC GAGACCAAGA GGAGGCACGT GTTCCGGCTG
    ACCACCGCTG ACTTCTGTGA ATATCTCTTT CAGGCTGAGG ACCGGGATGA CATGCTGGGC
    TGGATCAGAG CGATCCGGGA GAACAGCAGG GCCGAGGGCG AGGACCCCGG CTGTGCCAAC
    CAAGCTCTGA TCAGCAAGAA GCTTAACGAT TATCGCAAAG TGAGCCATAG CTCTGGGCCC
    AAAGCTGATT CCTCCCCCAA AGGCTCTCGC GGCCTGGGGG GCCTCAAGTC TGAGTTCCTC
    AAGCAGAGTG CGGCACGTGG CCTCAGGACT CAGGACCTGC CCGCAGGGAG CAAGGATGAC
    AGTGCTGCAG CCCCCAAAAC CCCCTGGGGC ATCAACATCA TCAAGAAAAA TAAGAAGGCC
    GCTCCGAGGG CGTTTGGGGT CAGGCTGGAG GAGTGCCAGC CAGCCACGGA GAACCAGCGC
    GTCCCCTTAA TCGTGGCTGC ATGCTGTCGC ATTGTGGAGG CACGAGGGCT GGAGTCCACA
    GGCATTTACC GAGTGCCCGG CAACAATGCA GTGGTGTCCA GCCTACAGGA GCAGCTCAAC
    CGCGGGCCTG GTGACATCAA CCTGCAGGAT GAGCGCTGGC AAGACCTCAA TGTGATCAGC
    AGCCTGCTCA AGTCCTTCTT CCGAAAGCTG CCCGAGCCTC TTTTCACTGA TGACAAATAC
    AACGACTTCA TCGAGGCCAA CCGCATTGAG GACGCGCGGG AGCGAATGAG GACGCTGCGG
    AAGCTGATCC GGGATCTCCC AGGACACTAC TATGAAACGC TCAAATTCCT TGTGGGCCAT
    CTCAAGACCA TCGCTGACCA CTCTGAGAAA AACAAGATGG AACCCCGGAA CCTGGCCCTG
    GTCTTTGGGC CGACACTGGT GAGGACGTCT GAGGACAACA TGACAGACAT GGTGACCCAC
    ATGCCTGACC GCTACAAGAT CGTGGAGACA CTGATCCAGC ACTCAGACTG GTTCTTCAGT
    GACGAAGAGG ACAAGGGAGA GAGAACCCCT GTGGGCGACA AGGAGCCTCA GGCAGTGCCC
    AACATTGAGT ACCTCCTGCC CAACATTGGC AGGACAGTGC CCCCTGGCGA CCCGGGGTCA
    GATTCTACCA CCTGTAGTTC AGCCAAGTCC AAGGGTTCGT GGGCCCCCAA GAAGGAGCCG
    TACGCCCGGG AGATGCTGGC GATCTCCTTC ATCTCGGCCG TCAACCGCAA GCGCAAGAAG
    CGGCGGGAGG CGCGGGGGCT GGGCAGCAGC ACCGACGACG ACTCGGAGCA GGAGGCGCAC
    AAGCCTGGGG CGGGGGCCAC AGCGCCGGGG ACTCAGGAGC GGCCGCAGGG GCCGCTGCCT
    GGCGCCGTCG CCCCCGAGGC CCCCGGACGC CTCAGTCCCC CGGCGGCGCC GGAGGAGCGG
    CCGGCCGCGG ACACGCGCTC CATTGTGTCG GGCTACTCCA CCCTGTCCAC CATGGACCGC
    AGCGTGTGCT CGGGCGCTAG CGGTCGGCGG GCAGGGGCGG GGGATGAGGC GGACGACGAG
    CGTAGCGAGC TGAGCCACGT GGAGACGGAC ACTGAGGGCG CGGCGGGCGC GGGGCCTGGG
    GGGCGCCTGA CACGCCGGCC GTCCTTCAGC TCGCACCACC TCATGCCCTG CGACACTCTG
    GCGCGCCGCC GCCTGGCCCG GGGCCGCCCA GACGGCGAGG GCGCGGGCCG GGGCGGTCCC
    CGCGCCCCGG AGCCGCCCGG CTCGGCGTCG TCCAGCAGCC AGGAGTCGCT GCGGCCCCCG
    GCGGCGGCGC TGGCCTCCCG GCCCTCGCGC ATGGAGGCGC TGCGTCTAAG GCTCCGCGGC
    ACGGCGGACG ACATGCTCGC CGTGCGCCTG CGGCGGCCGC TGTCGCCCGA GACCCGGCGG
    CGCCGGAGCA GCTGGCGCCG CCACACCGTG GTGGTGCAGA GCCCGCTGAC TGACCTCAAC
    TTCAACGAGT GGAAGGAGCT GGGCGGAGGG GGCCCCCCGG AGCCTGCGGG CGCGCGGGCG
    CACAGTGACA ACAAGGACTC CGGACTCAGC AGCCTGGAGT CCACCAAGGC GCGGGCCCCG
    TCGTCCGCTG CCTCGCAGCC GCCCGCGCCC GGGGACACGG GGTCCCTGCA GAGCCAGCCC
    CCGCGCCGCT CGGCCGCCTC CCGCCTGCAT CAGTGTCTGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_006722054.1
    CDS106..4527
    Translation

    Target ORF information:

    RefSeq Version XM_006721991.1
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006721991.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGAGCAGC TGCCACTGGG CCCAAGAGAT GGGTGCTCTC CTAGGCGCCC CTTCCCCTGG 
    CAGGGGCCGA GGACGCTGCT GCTGTACAAA AGTCCCCAGG ACGGCTTTGG CTTCACTCTG
    CGCCACTTCA TCGTGTACCC ACCCGAGTCG GCCGTGCACT GCAGCCTGAA GGAGGAAGAG
    AATGGAGGCC GTGGAGGAGG ACCCTCCCCC CGGTACCGCC TGGAGCCCAT GGACACCATC
    TTTGTCAAGA ATGTGAAGGA AGACGGCCCT GCCCATAGGG CGGGGCTTCG CACAGGAGAC
    CGGCTGGTAA AGGTGAATGG GGAAAGCGTC ATTGGGAAGA CCTACTCTCA GGTCATAGCT
    CTGATCCAGA ATAGTGATGA CACTCTGGAG CTGTCTATCA TGCCCAAGGA CGAGGACATC
    CTCCAGCTGG CCTACTCCCA GGATGCCTAC CTGAAAGGGA ACGAGCCGTA TTCTGGAGAG
    GCCCGCAGCA TCCCAGAGCC ACCCCCGATC TGCTACCCCC GCAAGACCTA CGCCCCTCCT
    GCCCGGGCCT CCACCAGGGC CACTATGGTG CCTGAGCCCA CCTCAGCACT GCCCAGTGAC
    CCCCGGAGTC CTGCTGCCTG GAGTGACCCG GGGCTCCGTG TGCCACCTGC TGCCCGTGCC
    CACCTGGACA ACTCTTCCTT GGGGATGAGC CAGCCCCGCC CCAGCCCTGG TGCCTTCCCC
    CACCTCTCCT CGGAGCCCCG GACGCCCCGT GCCTTCCCAG AGCCTGGCAG CCGGGTGCCC
    CCCAGCAGAC TGGAGTGCCA GCAGGCCTTG TCACACTGGC TGTCAAACCA GGTACCCCGC
    CGGGCGGGGG AGAGACGGTG CCCAGCCATG GCCCCCCGGG CCCGCAGCGC CTCCCAGGAC
    CGGTTGGAGG AGGTGGCTGC CCCCCGCCCG TGGCCCTGCT CCACCTCCCA GGATGCTTTG
    AGCCAGCTGG GCCAGGAGGG CTGGCACCGA GCTCGCTCAG ATGACTACTT GAGCCGGGCC
    ACCCGTTCTG CCGAGGCACT GGGGCCAGGG GCACTGGTGT CACCCCGCTT TGAGCGGTGT
    GGCTGGGCTT CCCAGCGTTC GTCTGCCCGC ACCCCCGCCT GCCCAACTCG GGACCTGCCA
    GGGCCCCAGG CCCCACCCCC GTCTGGCCTG CAGGGCCTGG ATGACCTCGG GTACATCGGC
    TACCGGAGCT ACAGCCCATC ATTCCAGCGC CGGACCGGCC TCCTCCATGC GCTCTCCTTC
    CGGGACTCAC CCTTTGGGGG GCTGCCTACC TTCAACCTGG CCCAGTCCCC TGCGTCATTC
    CCACCAGAGG CCTCCGAGCC ACCCAGGGTT GTACGGCCGG AACCCAGCAC CCGGGCCCTG
    GAGCCTCCTG CGGAGGATCG CGGCGATGAG GTGGTCCTGA GGCAGAAGCC CCCGACGGGC
    CGCAAGGTTC AGCTGACCCC CGCAAGACAG ATGAACCTTG GATTTGGTGA CGAGTCCCCA
    GAGCCAGAGG CCAGTGGGCG AGGGGAACGC CTGGGCAGGA AGGTGGCCCC TTTGGCCACC
    ACCGAAGACT CTCTGGCTTC CATCCCCTTT ATTGATGAGC CCACCAGCCC CAGCATTGAC
    CTCCAAGCCA AGCACGTCCC TGCCTCTGCT GTGGTCTCCA GTGCCATGAA CTCAGCCCCT
    GTCCTGGGCA CCAGCCCATC TTCCCCGACC TTCACTTTCA CCCTCGGACG CCATTACTCG
    CAGGACTGCA GCAGCATCAA GGCTGGCCGC CGCTCCTCCT ACCTGCTGGC CATCACCACG
    GAGCGCTCCA AGTCCTGCGA TGATGGACTC AACACCTTCC GCGACGAGGG CCGGGTTCTG
    CGGCGCCTGC CAAACCGCAT ACCCAGCCTG CGGATGCTCC GGAGCTTCTT CACCGACGGG
    TCCTTGGATA GCTGGGGCAC CTCTGAAGAT GCTGACGCTC CTTCTAAGCG ACACTCAACC
    TCTGACCTCT CAGATGCGAC CTTCAGCGAT ATCAGGAGAG AAGGCTGGTT GTATTATAAG
    CAGATTCTCA CCAAGAAGGG GAAGAAAGCG GGCAGCGGCC TGCGCCAGTG GAAGCGGGTG
    TACGCCGCGC TGCGGGCGCG CTCGCTCTCG CTGAGCAAGG AGCGGCGGGA GCCCGGGCCG
    GCGGCGGCGG GGGCTGCGGC GGCCGGCGCA GGTGAGGACG AGGCGGCGCC CGTCTGCATC
    GGCTCCTGCC TCGTGGACAT CTCCTACAGC GAGACCAAGA GGAGGCACGT GTTCCGGCTG
    ACCACCGCTG ACTTCTGTGA ATATCTCTTT CAGGCTGAGG ACCGGGATGA CATGCTGGGC
    TGGATCAGAG CGATCCGGGA GAACAGCAGG GCCGAGGGCG AGGACCCCGG CTGTGCCAAC
    CAAGCTCTGA TCAGCAAGAA GCTTAACGAT TATCGCAAAG TGAGCCATAG CTCTGGGCCC
    AAAGCTGATT CCTCCCCCAA AGGCTCTCGC GGCCTGGGGG GCCTCAAGTC TGAGTTCCTC
    AAGCAGAGTG CGGCACGTGG CCTCAGGACT CAGGACCTGC CCGCAGGGAG CAAGGATGAC
    AGTGCTGCAG CCCCCAAAAC CCCCTGGGGC ATCAACATCA TCAAGAAAAA TAAGAAGGCC
    GCTCCGAGGG CGTTTGGGGT CAGGCTGGAG GAGTGCCAGC CAGCCACGGA GAACCAGCGC
    GTCCCCTTAA TCGTGGCTGC ATGCTGTCGC ATTGTGGAGG CACGAGGGCT GGAGTCCACA
    GGCATTTACC GAGTGCCCGG CAACAATGCA GTGGTGTCCA GCCTACAGGA GCAGCTCAAC
    CGCGGGCCTG GTGACATCAA CCTGCAGGAT GAGCGCTGGC AAGACCTCAA TGTGATCAGC
    AGCCTGCTCA AGTCCTTCTT CCGAAAGCTG CCCGAGCCTC TTTTCACTGA TGACAAATAC
    AACGACTTCA TCGAGGCCAA CCGCATTGAG GACGCGCGGG AGCGAATGAG GACGCTGCGG
    AAGCTGATCC GGGATCTCCC AGGACACTAC TATGAAACGC TCAAATTCCT TGTGGGCCAT
    CTCAAGACCA TCGCTGACCA CTCTGAGAAA AACAAGATGG AACCCCGGAA CCTGGCCCTG
    GTCTTTGGGC CGACACTGGT GAGGACGTCT GAGGACAACA TGACAGACAT GGTGACCCAC
    ATGCCTGACC GCTACAAGAT CGTGGAGACA CTGATCCAGC ACTCAGACTG GTTCTTCAGT
    GACGAAGAGG ACAAGGGAGA GAGAACCCCT GTGGGCGACA AGGAGCCTCA GGCAGTGCCC
    AACATTGAGT ACCTCCTGCC CAACATTGGC AGGACAGTGC CCCCTGGCGA CCCGGGGTCA
    GATTCTACCA CCTGTAGTTC AGCCAAGTCC AAGGGTTCGT GGGCCCCCAA GAAGGAGCCG
    TACGCCCGGG AGATGCTGGC GATCTCCTTC ATCTCGGCCG TCAACCGCAA GCGCAAGAAG
    CGGCGGGAGG CGCGGGGGCT GGGCAGCAGC ACCGACGACG ACTCGGAGCA GGAGGCGCAC
    AAGCCTGGGG CGGGGGCCAC AGCGCCGGGG ACTCAGGAGC GGCCGCAGGG GCCGCTGCCT
    GGCGCCGTCG CCCCCGAGGC CCCCGGACGC CTCAGTCCCC CGGCGGCGCC GGAGGAGCGG
    CCGGCCGCGG ACACGCGCTC CATTGTGTCG GGCTACTCCA CCCTGTCCAC CATGGACCGC
    AGCGTGTGCT CGGGCGCTAG CGGTCGGCGG GCAGGGGCGG GGGATGAGGC GGACGACGAG
    CGTAGCGAGC TGAGCCACGT GGAGACGGAC ACTGAGGGCG CGGCGGGCGC GGGGCCTGGG
    GGGCGCCTGA CACGCCGGCC GTCCTTCAGC TCGCACCACC TCATGCCCTG CGACACTCTG
    GCGCGCCGCC GCCTGGCCCG GGGCCGCCCA GACGGCGAGG GCGCGGGCCG GGGCGGTCCC
    CGCGCCCCGG AGCCGCCCGG CTCGGCGTCG TCCAGCAGCC AGGAGTCGCT GCGGCCCCCG
    GCGGCGGCGC TGGCCTCCCG GCCCTCGCGC ATGGAGGCGC TGCGTCTAAG GCTCCGCGGC
    ACGGCGGACG ACATGCTCGC CGTGCGCCTG CGGCGGCCGC TGTCGCCCGA GACCCGGCGG
    CGCCGGAGCA GCTGGCGCCG CCACACCGTG GTGGTGCAGA GCCCGCTGAC TGACCTCAAC
    TTCAACGAGT GGAAGGAGCT GGGCGGAGGG GGCCCCCCGG AGCCTGCGGG CGCGCGGGCG
    CACAGTGACA ACAAGGACTC CGGACTCAGC AGCCTGGAGT CCACCAAGGC GCGGGCCCCG
    TCGTCCGCTG CCTCGCAGCC GCCCGCGCCC GGGGACACGG GGTCCCTGCA GAGCCAGCCC
    CCGCGCCGCT CGGCCGCCTC CCGCCTGCAT CAGTGTCTGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu50549
    Clone ID Related Accession (Same CDS sequence) XM_006721992.3
    Accession Version XM_006721992.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4227bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein 23 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006721992.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGAATGGAG TCGCCTTCTG CCTGGTCGGG ATCCCGCCCC GCCCGGAGCC CCGGCCCCCA 
    CAGCTGCCAC TGGGCCCAAG AGATGGGTGC TCTCCTAGGC GCCCCTTCCC CTGGCAGGGG
    CCGAGGACGC TGCTGCTGTA CAAAAGTCCC CAGGACGGCT TTGGCTTCAC TCTGCGCCAC
    TTCATCGTGT ACCCACCCGA GTCGGCCGTG CACTGCAGCC TGAAGGAGGA AGAGAATGGA
    GGCCGTGGAG GAGGACCCTC CCCCCGGTAC CGCCTGGAGC CCATGGACAC CATCTTTGTC
    AAGAATGTGA AGGAAGACGG CCCTGCCCAT AGGGCGGGGC TTCGCACAGG AGACCGGCTG
    GTAAAGGTGA ATGGGGAAAG CGTCATTGGG AAGACCTACT CTCAGGTCAT AGCTCTGATC
    CAGAATAGTG ATGACACTCT GGAGCTGTCT ATCATGCCCA AGGACGAGGA CATCCTCCAG
    CTGGCCTACT CCCAGGATGC CTACCTGAAA GGGAACGAGC CGTATTCTGG AGAGGCCCGC
    AGCATCCCAG AGCCACCCCC GATCTGCTAC CCCCGCAAGA CCTACGCCCC TCCTGCCCGG
    GCCTCCACCA GGGCCACTAT GGTGCCTGAG CCCACCTCAG CACTGCCCAG TGACCCCCGG
    AGTCCTGCTG CCTGGAGTGA CCCGGGGCTC CGTGTGCCAC CTGCTGCCCG TGCCCACCTG
    GACAACTCTT CCTTGGGGAT GAGCCAGCCC CGCCCCAGCC CTGGTGCCTT CCCCCACCTC
    TCCTCGGAGC CCCGGACGCC CCGTGCCTTC CCAGAGCCTG GCAGCCGGGT GCCCCCCAGC
    AGACTGGAGT GCCAGCAGGC CTTGTCACAC TGGCTGTCAA ACCAGGTACC CCGCCGGGCG
    GGGGAGAGAC GGTGCCCAGC CATGGCCCCC CGGGCCCGCA GCGCCTCCCA GGACCGGTTG
    GAGGAGGTGG CTGCCCCCCG CCCGTGGCCC TGCTCCACCT CCCAGGATGC TTTGAGCCAG
    CTGGGCCAGG AGGGCTGGCA CCGAGCTCGC TCAGATGACT ACTTGAGCCG GGCCACCCGT
    TCTGCCGAGG CACTGGGGCC AGGGGCACTG GTGTCACCCC GCTTTGAGCG GTGTGGCTGG
    GCTTCCCAGC GTTCGTCTGC CCGCACCCCC GCCTGCCCAA CTCGGGACCT GCCAGGGCCC
    CAGGCCCCAC CCCCGTCTGG CCTGCAGGGC CTGGATGACC TCGGGTACAT CGGCTACCGG
    AGCTACAGCC CATCATTCCA GCGCCGGACC GGCCTCCTCC ATGCGCTCTC CTTCCGGGAC
    TCACCCTTTG GGGGGCTGCC TACCTTCAAC CTGGCCCAGT CCCCTGCGTC ATTCCCACCA
    GAGGCCTCCG AGCCACCCAG GGTTGTACGG CCGGAACCCA GCACCCGGGC CCTGGAGCCT
    CCTGCGGAGG ATCGCGGCGA TGAGGTGGTC CTGAGGCAGA AGCCCCCGAC GGGCCGCAAG
    GTTCAGCTGA CCCCCGCAAG ACAGATGAAC CTTGGATTTG GTGACGAGTC CCCAGAGCCA
    GAGGCCAGTG GGCGAGGGGA ACGCCTGGGC AGGAAGGTGG CCCCTTTGGC CACCACCGAA
    GACTCTCTGG CTTCCATCCC CTTTATTGAT GAGCCCACCA GCCCCAGCAT TGACCTCCAA
    GCCAAGCACG TCCCTGCCTC TGCTGTGGTC TCCAGTGCCA TGAACTCAGC CCCTGTCCTG
    GGCACCAGCC CATCTTCCCC GACCTTCACT TTCACCCTCG GACGCCATTA CTCGCAGGAC
    TGCAGCAGCA TCAAGGCTGG CCGCCGCTCC TCCTACCTGC TGGCCATCAC CACGGAGCGC
    TCCAAGTCCT GCGATGATGG ACTCAACACC TTCCGCGACG AGGGCCGGGT TCTGCGGCGC
    CTGCCAAACC GCATACCCAG CCTGCGGATG CTCCGGAGCT TCTTCACCGA CGGGTCCTTG
    GATAGCTGGG GCACCTCTGA AGATGCTGAC GCTCCTTCTA AGCGACACTC AACCTCTGAC
    CTCTCAGATG CGACCTTCAG CGATATCAGG AGAGAAGGCT GGTTGTATTA TAAGCAGATT
    CTCACCAAGA AGGGGAAGGC TGAGGACCGG GATGACATGC TGGGCTGGAT CAGAGCGATC
    CGGGAGAACA GCAGGGCCGA GGGCGAGGAC CCCGGCTGTG CCAACCAAGC TCTGATCAGC
    AAGAAGCTTA ACGATTATCG CAAAGTGAGC CATAGCTCTG GGCCCAAAGC TGATTCCTCC
    CCCAAAGGCT CTCGCGGCCT GGGGGGCCTC AAGTCTGAGT TCCTCAAGCA GAGTGCGGCA
    CGTGGCCTCA GGACTCAGGA CCTGCCCGCA GGGAGCAAGG ATGACAGTGC TGCAGCCCCC
    AAAACCCCCT GGGGCATCAA CATCATCAAG AAAAATAAGA AGGCCGCTCC GAGGGCGTTT
    GGGGTCAGGC TGGAGGAGTG CCAGCCAGCC ACGGAGAACC AGCGCGTCCC CTTAATCGTG
    GCTGCATGCT GTCGCATTGT GGAGGCACGA GGGCTGGAGT CCACAGGCAT TTACCGAGTG
    CCCGGCAACA ATGCAGTGGT GTCCAGCCTA CAGGAGCAGC TCAACCGCGG GCCTGGTGAC
    ATCAACCTGC AGGATGAGCG CTGGCAAGAC CTCAATGTGA TCAGCAGCCT GCTCAAGTCC
    TTCTTCCGAA AGCTGCCCGA GCCTCTTTTC ACTGATGACA AATACAACGA CTTCATCGAG
    GCCAACCGCA TTGAGGACGC GCGGGAGCGA ATGAGGACGC TGCGGAAGCT GATCCGGGAT
    CTCCCAGGAC ACTACTATGA AACGCTCAAA TTCCTTGTGG GCCATCTCAA GACCATCGCT
    GACCACTCTG AGAAAAACAA GATGGAACCC CGGAACCTGG CCCTGGTCTT TGGGCCGACA
    CTGGTGAGGA CGTCTGAGGA CAACATGACA GACATGGTGA CCCACATGCC TGACCGCTAC
    AAGATCGTGG AGACACTGAT CCAGCACTCA GACTGGTTCT TCAGTGACGA AGAGGACAAG
    GGAGAGAGAA CCCCTGTGGG CGACAAGGAG CCTCAGGCAG TGCCCAACAT TGAGTACCTC
    CTGCCCAACA TTGGCAGGAC AGTGCCCCCT GGCGACCCGG GGTCAGATTC TACCACCTGT
    AGTTCAGCCA AGTCCAAGGG TTCGTGGGCC CCCAAGAAGG AGCCGTACGC CCGGGAGATG
    CTGGCGATCT CCTTCATCTC GGCCGTCAAC CGCAAGCGCA AGAAGCGGCG GGAGGCGCGG
    GGGCTGGGCA GCAGCACCGA CGACGACTCG GAGCAGGAGG CGCACAAGCC TGGGGCGGGG
    GCCACAGCGC CGGGGACTCA GGAGCGGCCG CAGGGGCCGC TGCCTGGCGC CGTCGCCCCC
    GAGGCCCCCG GACGCCTCAG TCCCCCGGCG GCGCCGGAGG AGCGGCCGGC CGCGGACACG
    CGCTCCATTG TGTCGGGCTA CTCCACCCTG TCCACCATGG ACCGCAGCGT GTGCTCGGGC
    GCTAGCGGTC GGCGGGCAGG GGCGGGGGAT GAGGCGGACG ACGAGCGTAG CGAGCTGAGC
    CACGTGGAGA CGGACACTGA GGGCGCGGCG GGCGCGGGGC CTGGGGGGCG CCTGACACGC
    CGGCCGTCCT TCAGCTCGCA CCACCTCATG CCCTGCGACA CTCTGGCGCG CCGCCGCCTG
    GCCCGGGGCC GCCCAGACGG CGAGGGCGCG GGCCGGGGCG GTCCCCGCGC CCCGGAGCCG
    CCCGGCTCGG CGTCGTCCAG CAGCCAGGAG TCGCTGCGGC CCCCGGCGGC GGCGCTGGCC
    TCCCGGCCCT CGCGCATGGA GGCGCTGCGT CTAAGGCTCC GCGGCACGGC GGACGACATG
    CTCGCCGTGC GCCTGCGGCG GCCGCTGTCG CCCGAGACCC GGCGGCGCCG GAGCAGCTGG
    CGCCGCCACA CCGTGGTGGT GCAGAGCCCG CTGACTGACC TCAACTTCAA CGAGTGGAAG
    GAGCTGGGCG GAGGGGGCCC CCCGGAGCCT GCGGGCGCGC GGGCGCACAG TGACAACAAG
    GACTCCGGAC TCAGCAGCCT GGAGTCCACC AAGGCGCGGG CCCCGTCGTC CGCTGCCTCG
    CAGCCGCCCG CGCCCGGGGA CACGGGGTCC CTGCAGAGCC AGCCCCCGCG CCGCTCGGCC
    GCCTCCCGCC TGCATCAGTG TCTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_006722055.1
    CDS39..4265
    Translation

    Target ORF information:

    RefSeq Version XM_006721992.3
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006721992.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGAATGGAG TCGCCTTCTG CCTGGTCGGG ATCCCGCCCC GCCCGGAGCC CCGGCCCCCA 
    CAGCTGCCAC TGGGCCCAAG AGATGGGTGC TCTCCTAGGC GCCCCTTCCC CTGGCAGGGG
    CCGAGGACGC TGCTGCTGTA CAAAAGTCCC CAGGACGGCT TTGGCTTCAC TCTGCGCCAC
    TTCATCGTGT ACCCACCCGA GTCGGCCGTG CACTGCAGCC TGAAGGAGGA AGAGAATGGA
    GGCCGTGGAG GAGGACCCTC CCCCCGGTAC CGCCTGGAGC CCATGGACAC CATCTTTGTC
    AAGAATGTGA AGGAAGACGG CCCTGCCCAT AGGGCGGGGC TTCGCACAGG AGACCGGCTG
    GTAAAGGTGA ATGGGGAAAG CGTCATTGGG AAGACCTACT CTCAGGTCAT AGCTCTGATC
    CAGAATAGTG ATGACACTCT GGAGCTGTCT ATCATGCCCA AGGACGAGGA CATCCTCCAG
    CTGGCCTACT CCCAGGATGC CTACCTGAAA GGGAACGAGC CGTATTCTGG AGAGGCCCGC
    AGCATCCCAG AGCCACCCCC GATCTGCTAC CCCCGCAAGA CCTACGCCCC TCCTGCCCGG
    GCCTCCACCA GGGCCACTAT GGTGCCTGAG CCCACCTCAG CACTGCCCAG TGACCCCCGG
    AGTCCTGCTG CCTGGAGTGA CCCGGGGCTC CGTGTGCCAC CTGCTGCCCG TGCCCACCTG
    GACAACTCTT CCTTGGGGAT GAGCCAGCCC CGCCCCAGCC CTGGTGCCTT CCCCCACCTC
    TCCTCGGAGC CCCGGACGCC CCGTGCCTTC CCAGAGCCTG GCAGCCGGGT GCCCCCCAGC
    AGACTGGAGT GCCAGCAGGC CTTGTCACAC TGGCTGTCAA ACCAGGTACC CCGCCGGGCG
    GGGGAGAGAC GGTGCCCAGC CATGGCCCCC CGGGCCCGCA GCGCCTCCCA GGACCGGTTG
    GAGGAGGTGG CTGCCCCCCG CCCGTGGCCC TGCTCCACCT CCCAGGATGC TTTGAGCCAG
    CTGGGCCAGG AGGGCTGGCA CCGAGCTCGC TCAGATGACT ACTTGAGCCG GGCCACCCGT
    TCTGCCGAGG CACTGGGGCC AGGGGCACTG GTGTCACCCC GCTTTGAGCG GTGTGGCTGG
    GCTTCCCAGC GTTCGTCTGC CCGCACCCCC GCCTGCCCAA CTCGGGACCT GCCAGGGCCC
    CAGGCCCCAC CCCCGTCTGG CCTGCAGGGC CTGGATGACC TCGGGTACAT CGGCTACCGG
    AGCTACAGCC CATCATTCCA GCGCCGGACC GGCCTCCTCC ATGCGCTCTC CTTCCGGGAC
    TCACCCTTTG GGGGGCTGCC TACCTTCAAC CTGGCCCAGT CCCCTGCGTC ATTCCCACCA
    GAGGCCTCCG AGCCACCCAG GGTTGTACGG CCGGAACCCA GCACCCGGGC CCTGGAGCCT
    CCTGCGGAGG ATCGCGGCGA TGAGGTGGTC CTGAGGCAGA AGCCCCCGAC GGGCCGCAAG
    GTTCAGCTGA CCCCCGCAAG ACAGATGAAC CTTGGATTTG GTGACGAGTC CCCAGAGCCA
    GAGGCCAGTG GGCGAGGGGA ACGCCTGGGC AGGAAGGTGG CCCCTTTGGC CACCACCGAA
    GACTCTCTGG CTTCCATCCC CTTTATTGAT GAGCCCACCA GCCCCAGCAT TGACCTCCAA
    GCCAAGCACG TCCCTGCCTC TGCTGTGGTC TCCAGTGCCA TGAACTCAGC CCCTGTCCTG
    GGCACCAGCC CATCTTCCCC GACCTTCACT TTCACCCTCG GACGCCATTA CTCGCAGGAC
    TGCAGCAGCA TCAAGGCTGG CCGCCGCTCC TCCTACCTGC TGGCCATCAC CACGGAGCGC
    TCCAAGTCCT GCGATGATGG ACTCAACACC TTCCGCGACG AGGGCCGGGT TCTGCGGCGC
    CTGCCAAACC GCATACCCAG CCTGCGGATG CTCCGGAGCT TCTTCACCGA CGGGTCCTTG
    GATAGCTGGG GCACCTCTGA AGATGCTGAC GCTCCTTCTA AGCGACACTC AACCTCTGAC
    CTCTCAGATG CGACCTTCAG CGATATCAGG AGAGAAGGCT GGTTGTATTA TAAGCAGATT
    CTCACCAAGA AGGGGAAGGC TGAGGACCGG GATGACATGC TGGGCTGGAT CAGAGCGATC
    CGGGAGAACA GCAGGGCCGA GGGCGAGGAC CCCGGCTGTG CCAACCAAGC TCTGATCAGC
    AAGAAGCTTA ACGATTATCG CAAAGTGAGC CATAGCTCTG GGCCCAAAGC TGATTCCTCC
    CCCAAAGGCT CTCGCGGCCT GGGGGGCCTC AAGTCTGAGT TCCTCAAGCA GAGTGCGGCA
    CGTGGCCTCA GGACTCAGGA CCTGCCCGCA GGGAGCAAGG ATGACAGTGC TGCAGCCCCC
    AAAACCCCCT GGGGCATCAA CATCATCAAG AAAAATAAGA AGGCCGCTCC GAGGGCGTTT
    GGGGTCAGGC TGGAGGAGTG CCAGCCAGCC ACGGAGAACC AGCGCGTCCC CTTAATCGTG
    GCTGCATGCT GTCGCATTGT GGAGGCACGA GGGCTGGAGT CCACAGGCAT TTACCGAGTG
    CCCGGCAACA ATGCAGTGGT GTCCAGCCTA CAGGAGCAGC TCAACCGCGG GCCTGGTGAC
    ATCAACCTGC AGGATGAGCG CTGGCAAGAC CTCAATGTGA TCAGCAGCCT GCTCAAGTCC
    TTCTTCCGAA AGCTGCCCGA GCCTCTTTTC ACTGATGACA AATACAACGA CTTCATCGAG
    GCCAACCGCA TTGAGGACGC GCGGGAGCGA ATGAGGACGC TGCGGAAGCT GATCCGGGAT
    CTCCCAGGAC ACTACTATGA AACGCTCAAA TTCCTTGTGG GCCATCTCAA GACCATCGCT
    GACCACTCTG AGAAAAACAA GATGGAACCC CGGAACCTGG CCCTGGTCTT TGGGCCGACA
    CTGGTGAGGA CGTCTGAGGA CAACATGACA GACATGGTGA CCCACATGCC TGACCGCTAC
    AAGATCGTGG AGACACTGAT CCAGCACTCA GACTGGTTCT TCAGTGACGA AGAGGACAAG
    GGAGAGAGAA CCCCTGTGGG CGACAAGGAG CCTCAGGCAG TGCCCAACAT TGAGTACCTC
    CTGCCCAACA TTGGCAGGAC AGTGCCCCCT GGCGACCCGG GGTCAGATTC TACCACCTGT
    AGTTCAGCCA AGTCCAAGGG TTCGTGGGCC CCCAAGAAGG AGCCGTACGC CCGGGAGATG
    CTGGCGATCT CCTTCATCTC GGCCGTCAAC CGCAAGCGCA AGAAGCGGCG GGAGGCGCGG
    GGGCTGGGCA GCAGCACCGA CGACGACTCG GAGCAGGAGG CGCACAAGCC TGGGGCGGGG
    GCCACAGCGC CGGGGACTCA GGAGCGGCCG CAGGGGCCGC TGCCTGGCGC CGTCGCCCCC
    GAGGCCCCCG GACGCCTCAG TCCCCCGGCG GCGCCGGAGG AGCGGCCGGC CGCGGACACG
    CGCTCCATTG TGTCGGGCTA CTCCACCCTG TCCACCATGG ACCGCAGCGT GTGCTCGGGC
    GCTAGCGGTC GGCGGGCAGG GGCGGGGGAT GAGGCGGACG ACGAGCGTAG CGAGCTGAGC
    CACGTGGAGA CGGACACTGA GGGCGCGGCG GGCGCGGGGC CTGGGGGGCG CCTGACACGC
    CGGCCGTCCT TCAGCTCGCA CCACCTCATG CCCTGCGACA CTCTGGCGCG CCGCCGCCTG
    GCCCGGGGCC GCCCAGACGG CGAGGGCGCG GGCCGGGGCG GTCCCCGCGC CCCGGAGCCG
    CCCGGCTCGG CGTCGTCCAG CAGCCAGGAG TCGCTGCGGC CCCCGGCGGC GGCGCTGGCC
    TCCCGGCCCT CGCGCATGGA GGCGCTGCGT CTAAGGCTCC GCGGCACGGC GGACGACATG
    CTCGCCGTGC GCCTGCGGCG GCCGCTGTCG CCCGAGACCC GGCGGCGCCG GAGCAGCTGG
    CGCCGCCACA CCGTGGTGGT GCAGAGCCCG CTGACTGACC TCAACTTCAA CGAGTGGAAG
    GAGCTGGGCG GAGGGGGCCC CCCGGAGCCT GCGGGCGCGC GGGCGCACAG TGACAACAAG
    GACTCCGGAC TCAGCAGCCT GGAGTCCACC AAGGCGCGGG CCCCGTCGTC CGCTGCCTCG
    CAGCCGCCCG CGCCCGGGGA CACGGGGTCC CTGCAGAGCC AGCCCCCGCG CCGCTCGGCC
    GCCTCCCGCC TGCATCAGTG TCTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu50550
    Clone ID Related Accession (Same CDS sequence) XM_006721993.3
    Accession Version XM_006721993.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3750bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein 23 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006721993.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGAATGGAG TCGCCTTCTG CCTGGTCGGG ATCCCGCCCC GCCCGGAGCC CCGGCCCCCA 
    CAGCTGCCAC TGGGCCCAAG AGATGGGTGC TCTCCTAGGC GCCCCTTCCC CTGGCAGGGG
    CCGAGGACGC TGCTGCTGTA CAAAAGTCCC CAGGACGGCT TTGGCTTCAC TCTGCGCCAC
    TTCATCGTGT ACCCACCCGA GTCGGCCGTG CACTGCAGCC TGAAGGAGGA AGAGAATGGA
    GGCCGTGGAG GAGGACCCTC CCCCCGGTAC CGCCTGGAGC CCATGGACAC CATCTTTGTC
    AAGAATGTGA AGGAAGACGG CCCTGCCCAT AGGGCGGGGC TTCGCACAGG AGACCGGCTG
    GTAAAGGTGA ATGGGGAAAG CGTCATTGGG AAGACCTACT CTCAGGTCAT AGCTCTGATC
    CAGAATAGTG ATGACACTCT GGAGCTGTCT ATCATGCCCA AGGACGAGGA CATCCTCCAG
    CTGGCCTACT CCCAGGATGC CTACCTGAAA GGGAACGAGC CGTATTCTGG AGAGGCCCGC
    AGCATCCCAG AGCCACCCCC GATCTGCTAC CCCCGCAAGA CCTACGCCCC TCCTGCCCGG
    GCCTCCACCA GGGCCACTAT GGTGCCTGAG CCCACCTCAG CACTGCCCAG TGACCCCCGG
    AGTCCTGCTG CCTGGAGTGA CCCGGGGCTC CGTGTGCCAC CTGCTGCCCG TGCCCACCTG
    GACAACTCTT CCTTGGGGAT GAGCCAGCCC CGCCCCAGCC CTGGTGCCTT CCCCCACCTC
    TCCTCGGAGC CCCGGACGCC CCGTGCCTTC CCAGAGCCTG GCAGCCGGGT GCCCCCCAGC
    AGACTGGAGT GCCAGCAGGC CTTGTCACAC TGGCTGTCAA ACCAGGTACC CCGCCGGGCG
    GGGGAGAGAC GGTGCCCAGC CATGGCCCCC CGGGCCCGCA GCGCCTCCCA GGACCGGTTG
    GAGGAGGTGG CTGCCCCCCG CCCGTGGCCC TGCTCCACCT CCCAGGATGC TTTGAGCCAG
    CTGGGCCAGG AGGGCTGGCA CCGAGCTCGC TCAGATGACT ACTTGAGCCG GGCCACCCGT
    TCTGCCGAGG CACTGGGGCC AGGGGCACTG GTGTCACCCC GCTTTGAGCG GTGTGGCTGG
    GCTTCCCAGC GTTCGTCTGC CCGCACCCCC GCCTGCCCAA CTCGGGACCT GCCAGGGCCC
    CAGGCCCCAC CCCCGTCTGG CCTGCAGGGC CTGGATGACC TCGGGTACAT CGGCTACCGG
    AGCTACAGCC CATCATTCCA GCGCCGGACC GGCCTCCTCC ATGCGCTCTC CTTCCGGGAC
    TCACCCTTTG GGGGGCTGCC TACCTTCAAC CTGGCCCAGT CCCCTGCGTC ATTCCCACCA
    GAGGCCTCCG AGCCACCCAG GGTTGTACGG CCGGAACCCA GCACCCGGGC CCTGGAGCCT
    CCTGCGGAGG ATCGCGGCGA TGAGGTGGTC CTGAGGCAGA AGCCCCCGAC GGGCCGCAAG
    GTTCAGCTGA CCCCCGCAAG ACAGATGAAC CTTGGATTTG GTGACGAGTC CCCAGAGCCA
    GAGGCCAGTG GGCGAGGGGA ACGCCTGGGC AGGAAGGTGG CCCCTTTGGC CACCACCGAA
    GACTCTCTGG CTTCCATCCC CTTTATTGAT GAGCCCACCA GCCCCAGCAT TGACCTCCAA
    GCCAAGCACG TCCCTGCCTC TGCTGTGGTC TCCAGTGCCA TGAACTCAGC CCCTGTCCTG
    GGCACCAGCC CATCTTCCCC GACCTTCACT TTCACCCTCG GACGCCATTA CTCGCAGGAC
    TGCAGCAGCA TCAAGGCTGG CCGCCGCTCC TCCTACCTGC TGGCCATCAC CACGGAGCGC
    TCCAAGTCCT GCGATGATGG ACTCAACACC TTCCGCGACG AGGGCCGGGT TCTGCGGCGC
    CTGCCAAACC GCATACCCAG CCTGCGGATG CTCCGGAGCT TCTTCACCGA CGGGTCCTTG
    GATAGCTGGG GCACCTCTGA AGATGCTGAC GCTCCTTCTA AGCGACACTC AACCTCTGAC
    CTCTCAGATG CGACCTTCAG CGATATCAGG AGAGAAGGCT GGTTGTATTA TAAGCAGATT
    CTCACCAAGA AGGGGAAGAA AGCGGGCAGC GGCCTGCGCC AGTGGAAGCG GGTGTACGCC
    GCGCTGCGGG CGCGCTCGCT CTCGCTGAGC AAGGAGCGGC GGGAGCCCGG GCCGGCGGCG
    GCGGGGGCTG CGGCGGCCGG CGCAGGTGAG GACGAGGCGG CGCCCGTCTG CATCGGCTCC
    TGCCTCGTGG ACATCTCCTA CAGCGAGACC AAGAGGAGGC ACGTGTTCCG GCTGACCACC
    GCTGACTTCT GTGAATATCT CTTTCAGGCT GAGGACCGGG ATGACATGCT GGGCTGGATC
    AGAGCGATCC GGGAGAACAG CAGGGCCGAG GGCGAGGACC CCGGCTGTGC CAACCAAGCT
    CTGATCAGCA AGAAGCTTAA CGATTATCGC AAAGTGAGCC ATAGCTCTGG GCCCAAAGCT
    GATTCCTCCC CCAAAGGCTC TCGCGGCCTG GGGGGCCTCA AGTCTGAGTT CCTCAAGCAG
    AGTGCGGCAC GTGGCCTCAG GACTCAGGAC CTGCCCGCAG GGAGCAAGGA TGACAGTGCT
    GCAGCCCCCA AAACCCCCTG GGGCATCAAC ATCATCAAGA AAAATAAGAA GGCCGCTCCG
    AGGGCGTTTG GGGTCAGGCT GGAGGAGTGC CAGCCAGCCA CGGAGAACCA GCGCGTCCCC
    TTAATCGTGG CTGCATGCTG TCGCATTGTG GAGGCACGAG GGCTGGAGTC CACAGGCATT
    TACCGAGTGC CCGGCAACAA TGCAGTGGTG TCCAGCCTAC AGGAGCAGCT CAACCGCGGG
    CCTGGTGACA TCAACCTGCA GGATGAGCGC TGGCAAGACC TCAATGTGAT CAGCAGCCTG
    CTCAAGTCCT TCTTCCGAAA GCTGCCCGAG CCTCTTTTCA CTGATGACAA ATACAACGAC
    TTCATCGAGG CCAACCGCAT TGAGGACGCG CGGGAGCGAA TGAGGACGCT GCGGAAGCTG
    ATCCGGGATC TCCCAGGACA CTACTATGAA ACGCTCAAAT TCCTTGTGGG CCATCTCAAG
    ACCATCGCTG ACCACTCTGA GAAAAACAAG ATGGAACCCC GGAACCTGGC CCTGGTCTTT
    GGGCCGACAC TGGTGAGGAC GTCTGAGGAC AACATGACAG ACATGGTGAC CCACATGCCT
    GACCGCTACA AGATCGTGGA GACACTGATC CAGCACTCAG ACTGGTTCTT CAGTGACGAA
    GAGGACAAGG GAGAGAGAAT TCTACCACCT GTAGTTCAGC CAAGTCCAAG GGTTCGTGGG
    CCCCCAAGAA GGAGCCGTAC GCCCGGGAGA TGCTGGCGAT CTCCTTCATC TCGGCCGTCA
    ACCGCAAGCG CAAGAAGCGG CGGGAGGCGC GGGGGCTGGG CAGCAGCACC GACGACGACT
    CGGAGCAGGA GGCGCACAAG CCTGGGGCGG GGGCCACAGC GCCGGGGACT CAGGAGCGGC
    CGCAGGGGCC GCTGCCTGGC GCCGTCGCCC CCGAGGCCCC CGGACGCCTC AGTCCCCCGG
    CGGCGCCGGA GGAGCGGCCG GCCGCGGACA CGCGCTCCAT TGTGTCGGGC TACTCCACCC
    TGTCCACCAT GGACCGCAGC GTGTGCTCGG GCGCTAGCGG TCGGCGGGCA GGGGCGGGGG
    ATGAGGCGGA CGACGAGCGT AGCGAGCTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_006722056.1
    CDS38..3787
    Translation

    Target ORF information:

    RefSeq Version XM_006721993.3
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006721993.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGAATGGAG TCGCCTTCTG CCTGGTCGGG ATCCCGCCCC GCCCGGAGCC CCGGCCCCCA 
    CAGCTGCCAC TGGGCCCAAG AGATGGGTGC TCTCCTAGGC GCCCCTTCCC CTGGCAGGGG
    CCGAGGACGC TGCTGCTGTA CAAAAGTCCC CAGGACGGCT TTGGCTTCAC TCTGCGCCAC
    TTCATCGTGT ACCCACCCGA GTCGGCCGTG CACTGCAGCC TGAAGGAGGA AGAGAATGGA
    GGCCGTGGAG GAGGACCCTC CCCCCGGTAC CGCCTGGAGC CCATGGACAC CATCTTTGTC
    AAGAATGTGA AGGAAGACGG CCCTGCCCAT AGGGCGGGGC TTCGCACAGG AGACCGGCTG
    GTAAAGGTGA ATGGGGAAAG CGTCATTGGG AAGACCTACT CTCAGGTCAT AGCTCTGATC
    CAGAATAGTG ATGACACTCT GGAGCTGTCT ATCATGCCCA AGGACGAGGA CATCCTCCAG
    CTGGCCTACT CCCAGGATGC CTACCTGAAA GGGAACGAGC CGTATTCTGG AGAGGCCCGC
    AGCATCCCAG AGCCACCCCC GATCTGCTAC CCCCGCAAGA CCTACGCCCC TCCTGCCCGG
    GCCTCCACCA GGGCCACTAT GGTGCCTGAG CCCACCTCAG CACTGCCCAG TGACCCCCGG
    AGTCCTGCTG CCTGGAGTGA CCCGGGGCTC CGTGTGCCAC CTGCTGCCCG TGCCCACCTG
    GACAACTCTT CCTTGGGGAT GAGCCAGCCC CGCCCCAGCC CTGGTGCCTT CCCCCACCTC
    TCCTCGGAGC CCCGGACGCC CCGTGCCTTC CCAGAGCCTG GCAGCCGGGT GCCCCCCAGC
    AGACTGGAGT GCCAGCAGGC CTTGTCACAC TGGCTGTCAA ACCAGGTACC CCGCCGGGCG
    GGGGAGAGAC GGTGCCCAGC CATGGCCCCC CGGGCCCGCA GCGCCTCCCA GGACCGGTTG
    GAGGAGGTGG CTGCCCCCCG CCCGTGGCCC TGCTCCACCT CCCAGGATGC TTTGAGCCAG
    CTGGGCCAGG AGGGCTGGCA CCGAGCTCGC TCAGATGACT ACTTGAGCCG GGCCACCCGT
    TCTGCCGAGG CACTGGGGCC AGGGGCACTG GTGTCACCCC GCTTTGAGCG GTGTGGCTGG
    GCTTCCCAGC GTTCGTCTGC CCGCACCCCC GCCTGCCCAA CTCGGGACCT GCCAGGGCCC
    CAGGCCCCAC CCCCGTCTGG CCTGCAGGGC CTGGATGACC TCGGGTACAT CGGCTACCGG
    AGCTACAGCC CATCATTCCA GCGCCGGACC GGCCTCCTCC ATGCGCTCTC CTTCCGGGAC
    TCACCCTTTG GGGGGCTGCC TACCTTCAAC CTGGCCCAGT CCCCTGCGTC ATTCCCACCA
    GAGGCCTCCG AGCCACCCAG GGTTGTACGG CCGGAACCCA GCACCCGGGC CCTGGAGCCT
    CCTGCGGAGG ATCGCGGCGA TGAGGTGGTC CTGAGGCAGA AGCCCCCGAC GGGCCGCAAG
    GTTCAGCTGA CCCCCGCAAG ACAGATGAAC CTTGGATTTG GTGACGAGTC CCCAGAGCCA
    GAGGCCAGTG GGCGAGGGGA ACGCCTGGGC AGGAAGGTGG CCCCTTTGGC CACCACCGAA
    GACTCTCTGG CTTCCATCCC CTTTATTGAT GAGCCCACCA GCCCCAGCAT TGACCTCCAA
    GCCAAGCACG TCCCTGCCTC TGCTGTGGTC TCCAGTGCCA TGAACTCAGC CCCTGTCCTG
    GGCACCAGCC CATCTTCCCC GACCTTCACT TTCACCCTCG GACGCCATTA CTCGCAGGAC
    TGCAGCAGCA TCAAGGCTGG CCGCCGCTCC TCCTACCTGC TGGCCATCAC CACGGAGCGC
    TCCAAGTCCT GCGATGATGG ACTCAACACC TTCCGCGACG AGGGCCGGGT TCTGCGGCGC
    CTGCCAAACC GCATACCCAG CCTGCGGATG CTCCGGAGCT TCTTCACCGA CGGGTCCTTG
    GATAGCTGGG GCACCTCTGA AGATGCTGAC GCTCCTTCTA AGCGACACTC AACCTCTGAC
    CTCTCAGATG CGACCTTCAG CGATATCAGG AGAGAAGGCT GGTTGTATTA TAAGCAGATT
    CTCACCAAGA AGGGGAAGAA AGCGGGCAGC GGCCTGCGCC AGTGGAAGCG GGTGTACGCC
    GCGCTGCGGG CGCGCTCGCT CTCGCTGAGC AAGGAGCGGC GGGAGCCCGG GCCGGCGGCG
    GCGGGGGCTG CGGCGGCCGG CGCAGGTGAG GACGAGGCGG CGCCCGTCTG CATCGGCTCC
    TGCCTCGTGG ACATCTCCTA CAGCGAGACC AAGAGGAGGC ACGTGTTCCG GCTGACCACC
    GCTGACTTCT GTGAATATCT CTTTCAGGCT GAGGACCGGG ATGACATGCT GGGCTGGATC
    AGAGCGATCC GGGAGAACAG CAGGGCCGAG GGCGAGGACC CCGGCTGTGC CAACCAAGCT
    CTGATCAGCA AGAAGCTTAA CGATTATCGC AAAGTGAGCC ATAGCTCTGG GCCCAAAGCT
    GATTCCTCCC CCAAAGGCTC TCGCGGCCTG GGGGGCCTCA AGTCTGAGTT CCTCAAGCAG
    AGTGCGGCAC GTGGCCTCAG GACTCAGGAC CTGCCCGCAG GGAGCAAGGA TGACAGTGCT
    GCAGCCCCCA AAACCCCCTG GGGCATCAAC ATCATCAAGA AAAATAAGAA GGCCGCTCCG
    AGGGCGTTTG GGGTCAGGCT GGAGGAGTGC CAGCCAGCCA CGGAGAACCA GCGCGTCCCC
    TTAATCGTGG CTGCATGCTG TCGCATTGTG GAGGCACGAG GGCTGGAGTC CACAGGCATT
    TACCGAGTGC CCGGCAACAA TGCAGTGGTG TCCAGCCTAC AGGAGCAGCT CAACCGCGGG
    CCTGGTGACA TCAACCTGCA GGATGAGCGC TGGCAAGACC TCAATGTGAT CAGCAGCCTG
    CTCAAGTCCT TCTTCCGAAA GCTGCCCGAG CCTCTTTTCA CTGATGACAA ATACAACGAC
    TTCATCGAGG CCAACCGCAT TGAGGACGCG CGGGAGCGAA TGAGGACGCT GCGGAAGCTG
    ATCCGGGATC TCCCAGGACA CTACTATGAA ACGCTCAAAT TCCTTGTGGG CCATCTCAAG
    ACCATCGCTG ACCACTCTGA GAAAAACAAG ATGGAACCCC GGAACCTGGC CCTGGTCTTT
    GGGCCGACAC TGGTGAGGAC GTCTGAGGAC AACATGACAG ACATGGTGAC CCACATGCCT
    GACCGCTACA AGATCGTGGA GACACTGATC CAGCACTCAG ACTGGTTCTT CAGTGACGAA
    GAGGACAAGG GAGAGAGAAT TCTACCACCT GTAGTTCAGC CAAGTCCAAG GGTTCGTGGG
    CCCCCAAGAA GGAGCCGTAC GCCCGGGAGA TGCTGGCGAT CTCCTTCATC TCGGCCGTCA
    ACCGCAAGCG CAAGAAGCGG CGGGAGGCGC GGGGGCTGGG CAGCAGCACC GACGACGACT
    CGGAGCAGGA GGCGCACAAG CCTGGGGCGG GGGCCACAGC GCCGGGGACT CAGGAGCGGC
    CGCAGGGGCC GCTGCCTGGC GCCGTCGCCC CCGAGGCCCC CGGACGCCTC AGTCCCCCGG
    CGGCGCCGGA GGAGCGGCCG GCCGCGGACA CGCGCTCCAT TGTGTCGGGC TACTCCACCC
    TGTCCACCAT GGACCGCAGC GTGTGCTCGG GCGCTAGCGG TCGGCGGGCA GGGGCGGGGG
    ATGAGGCGGA CGACGAGCGT AGCGAGCTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu50551
    Clone ID Related Accession (Same CDS sequence) XM_024450847.1
    Accession Version XM_024450847.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3435bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein 23 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGAATGGAG TCGCCTTCTG CCTGGTCGGG ATCCCGCCCC GCCCGGAGCC CCGGCCCCCA 
    CAGCTGCCAC TGGGCCCAAG AGATGGGTGC TCTCCTAGGC GCCCCTTCCC CTGGCAGGGG
    CCGAGGACGC TGCTGCTGTA CAAAAGTCCC CAGGACGGCT TTGGCTTCAC TCTGCGCCAC
    TTCATCGTGT ACCCACCCGA GTCGGCCGTG CACTGCAGCC TGAAGGAGGA AGAGAATGGA
    GGCCGTGGAG GAGGACCCTC CCCCCGGTAC CGCCTGGAGC CCATGGACAC CATCTTTGTC
    AAGAATGTGA AGGAAGACGG CCCTGCCCAT AGGGCGGGGC TTCGCACAGG AGACCGGCTG
    GTAAAGGTGA ATGGGGAAAG CGTCATTGGG AAGACCTACT CTCAGGTCAT AGCTCTGATC
    CAGAATAGTG ATGACACTCT GGAGCTGTCT ATCATGCCCA AGGACGAGGA CATCCTCCAG
    CTGGCCTACT CCCAGGATGC CTACCTGAAA GGGAACGAGC CGTATTCTGG AGAGGCCCGC
    AGCATCCCAG AGCCACCCCC GATCTGCTAC CCCCGCAAGA CCTACGCCCC TCCTGCCCGG
    GCCTCCACCA GGGCCACTAT GGTGCCTGAG CCCACCTCAG CACTGCCCAG TGACCCCCGG
    AGTCCTGCTG CCTGGAGTGA CCCGGGGCTC CGTGTGCCAC CTGCTGCCCG TGCCCACCTG
    GACAACTCTT CCTTGGGGAT GAGCCAGCCC CGCCCCAGCC CTGGTGCCTT CCCCCACCTC
    TCCTCGGAGC CCCGGACGCC CCGTGCCTTC CCAGAGCCTG GCAGCCGGGT GCCCCCCAGC
    AGACTGGAGT GCCAGCAGGC CTTGTCACAC TGGCTGTCAA ACCAGGTACC CCGCCGGGCG
    GGGGAGAGAC GGTGCCCAGC CATGGCCCCC CGGGCCCGCA GCGCCTCCCA GGACCGGTTG
    GAGGAGGTGG CTGCCCCCCG CCCGTGGCCC TGCTCCACCT CCCAGGATGC TTTGAGCCAG
    CTGGGCCAGG AGGGCTGGCA CCGAGCTCGC TCAGATGACT ACTTGAGCCG GGCCACCCGT
    TCTGCCGAGG CACTGGGGCC AGGGGCACTG GTGTCACCCC GCTTTGAGCG GTGTGGCTGG
    GCTTCCCAGC GTTCGTCTGC CCGCACCCCC GCCTGCCCAA CTCGGGACCT GCCAGGGCCC
    CAGGCCCCAC CCCCGTCTGG CCTGCAGGGC CTGGATGACC TCGGGTACAT CGGCTACCGG
    AGCTACAGCC CATCATTCCA GCGCCGGACC GGCCTCCTCC ATGCGCTCTC CTTCCGGGAC
    TCACCCTTTG GGGGGCTGCC TACCTTCAAC CTGGCCCAGT CCCCTGCGTC ATTCCCACCA
    GAGGCCTCCG AGCCACCCAG GGTTGTACGG CCGGAACCCA GCACCCGGGC CCTGGAGCCT
    CCTGCGGAGG ATCGCGGCGA TGAGGTGGTC CTGAGGCAGA AGCCCCCGAC GGGCCGCAAG
    GTTCAGCTGA CCCCCGCAAG ACAGATGAAC CTTGGATTTG GTGACGAGTC CCCAGAGCCA
    GAGGCCAGTG GGCGAGGGGA ACGCCTGGGC AGGAAGGTGG CCCCTTTGGC CACCACCGAA
    GACTCTCTGG CTTCCATCCC CTTTATTGAT GAGCCCACCA GCCCCAGCAT TGACCTCCAA
    GCCAAGCACG TCCCTGCCTC TGCTGTGGTC TCCAGTGCCA TGAACTCAGC CCCTGTCCTG
    GGCACCAGCC CATCTTCCCC GACCTTCACT TTCACCCTCG GACGCCATTA CTCGCAGGAC
    TGCAGCAGCA TCAAGGCTGG CCGCCGCTCC TCCTACCTGC TGGCCATCAC CACGGAGCGC
    TCCAAGTCCT GCGATGATGG ACTCAACACC TTCCGCGACG AGGGCCGGGT TCTGCGGCGC
    CTGCCAAACC GCATACCCAG CCTGCGGATG CTCCGGAGCT TCTTCACCGA CGGGTCCTTG
    GATAGCTGGG GCACCTCTGA AGATGCTGAC GCTCCTTCTA AGCGACACTC AACCTCTGAC
    CTCTCAGATG CGACCTTCAG CGATATCAGG AGAGAAGGCT GGTTGTATTA TAAGCAGATT
    CTCACCAAGA AGGGGAAGAA AGCGGGCAGC GGCCTGCGCC AGTGGAAGCG GGTGTACGCC
    GCGCTGCGGG CGCGCTCGCT CTCGCTGAGC AAGGAGCGGC GGGAGCCCGG GCCGGCGGCG
    GCGGGGGCTG CGGCGGCCGG CGCAGGTGAG GACGAGGCGG CGCCCGTCTG CATCGGCTCC
    TGCCTCGTGG ACATCTCCTA CAGCGAGACC AAGAGGAGGC ACGTGTTCCG GCTGACCACC
    GCTGACTTCT GTGAATATCT CTTTCAGGCT GAGGACCGGG ATGACATGCT GGGCTGGATC
    AGAGCGATCC GGGAGAACAG CAGGGCCGAG GGCGAGGACC CCGGCTGTGC CAACCAAGCT
    CTGATCAGCA AGAAGCTTAA CGATTATCGC AAAGTGAGCC ATAGCTCTGG GCCCAAAGCT
    GATTCCTCCC CCAAAGGCTC TCGCGGCCTG GGGGGCCTCA AGTCTGAGTT CCTCAAGCAG
    AGTGCGGCAC GTGGCCTCAG GACTCAGGAC CTGCCCGCAG GGAGCAAGGA TGACAGTGCT
    GCAGCCCCCA AAACCCCCTG GGGCATCAAC ATCATCAAGA AAAATAAGAA GGCCGCTCCG
    AGGGCGTTTG GGGTCAGGCT GGAGGAGTGC CAGCCAGCCA CGGAGAACCA GCGCGTCCCC
    TTAATCGTGG CTGCATGCTG TCGCATTGTG GAGGCACGAG GGCTGGAGTC CACAGGCATT
    TACCGAGTGC CCGGCAACAA TGCAGTGGTG TCCAGCCTAC AGGAGCAGCT CAACCGCGGG
    CCTGGTGACA TCAACCTGCA GGATGAGCGC TGGCAAGACC TCAATGTGAT CAGCAGCCTG
    CTCAAGTCCT TCTTCCGAAA GCTGCCCGAG CCTCTTTTCA CTGATGACAA ATACAACGAC
    TTCATCGAGG CCAACCGCAT TGAGGACGCG CGGGAGCGAA TGAGGACGCT GCGGAAGCTG
    ATCCGGGATC TCCCAGGACA CTACTATGAA ACGCTCAAAT TCCTTGTGGG CCATCTCAAG
    ACCATCGCTG ACCACTCTGA GAAAAACAAG ATGGAACCCC GGAACCTGGC CCTGGTCTTT
    GGGCCGACAC TGGTGAGGAC GTCTGAGGAC AACATGACAG ACATGGTGAC CCACATGCCT
    GACCGCTACA AGATCGTGGA GACACTGATC CAGCACTCAG ACTGGTTCTT CAGTGACGAA
    GAGGACAAGG GAGAGAGAAC CCCTGTGGGC GACAAGGAGC CTCAGGCAGT GCCCAACATT
    GAGTACCTCC TGCCCAACAT TGGCAGGACA GTGCCCCCTG GCGACCCGGG GTCAGCGGAC
    CTGTTGGAGA TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024306615.1
    CDS37..3471
    Translation

    Target ORF information:

    RefSeq Version XM_024450847.1
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024450847.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGAATGGAG TCGCCTTCTG CCTGGTCGGG ATCCCGCCCC GCCCGGAGCC CCGGCCCCCA 
    CAGCTGCCAC TGGGCCCAAG AGATGGGTGC TCTCCTAGGC GCCCCTTCCC CTGGCAGGGG
    CCGAGGACGC TGCTGCTGTA CAAAAGTCCC CAGGACGGCT TTGGCTTCAC TCTGCGCCAC
    TTCATCGTGT ACCCACCCGA GTCGGCCGTG CACTGCAGCC TGAAGGAGGA AGAGAATGGA
    GGCCGTGGAG GAGGACCCTC CCCCCGGTAC CGCCTGGAGC CCATGGACAC CATCTTTGTC
    AAGAATGTGA AGGAAGACGG CCCTGCCCAT AGGGCGGGGC TTCGCACAGG AGACCGGCTG
    GTAAAGGTGA ATGGGGAAAG CGTCATTGGG AAGACCTACT CTCAGGTCAT AGCTCTGATC
    CAGAATAGTG ATGACACTCT GGAGCTGTCT ATCATGCCCA AGGACGAGGA CATCCTCCAG
    CTGGCCTACT CCCAGGATGC CTACCTGAAA GGGAACGAGC CGTATTCTGG AGAGGCCCGC
    AGCATCCCAG AGCCACCCCC GATCTGCTAC CCCCGCAAGA CCTACGCCCC TCCTGCCCGG
    GCCTCCACCA GGGCCACTAT GGTGCCTGAG CCCACCTCAG CACTGCCCAG TGACCCCCGG
    AGTCCTGCTG CCTGGAGTGA CCCGGGGCTC CGTGTGCCAC CTGCTGCCCG TGCCCACCTG
    GACAACTCTT CCTTGGGGAT GAGCCAGCCC CGCCCCAGCC CTGGTGCCTT CCCCCACCTC
    TCCTCGGAGC CCCGGACGCC CCGTGCCTTC CCAGAGCCTG GCAGCCGGGT GCCCCCCAGC
    AGACTGGAGT GCCAGCAGGC CTTGTCACAC TGGCTGTCAA ACCAGGTACC CCGCCGGGCG
    GGGGAGAGAC GGTGCCCAGC CATGGCCCCC CGGGCCCGCA GCGCCTCCCA GGACCGGTTG
    GAGGAGGTGG CTGCCCCCCG CCCGTGGCCC TGCTCCACCT CCCAGGATGC TTTGAGCCAG
    CTGGGCCAGG AGGGCTGGCA CCGAGCTCGC TCAGATGACT ACTTGAGCCG GGCCACCCGT
    TCTGCCGAGG CACTGGGGCC AGGGGCACTG GTGTCACCCC GCTTTGAGCG GTGTGGCTGG
    GCTTCCCAGC GTTCGTCTGC CCGCACCCCC GCCTGCCCAA CTCGGGACCT GCCAGGGCCC
    CAGGCCCCAC CCCCGTCTGG CCTGCAGGGC CTGGATGACC TCGGGTACAT CGGCTACCGG
    AGCTACAGCC CATCATTCCA GCGCCGGACC GGCCTCCTCC ATGCGCTCTC CTTCCGGGAC
    TCACCCTTTG GGGGGCTGCC TACCTTCAAC CTGGCCCAGT CCCCTGCGTC ATTCCCACCA
    GAGGCCTCCG AGCCACCCAG GGTTGTACGG CCGGAACCCA GCACCCGGGC CCTGGAGCCT
    CCTGCGGAGG ATCGCGGCGA TGAGGTGGTC CTGAGGCAGA AGCCCCCGAC GGGCCGCAAG
    GTTCAGCTGA CCCCCGCAAG ACAGATGAAC CTTGGATTTG GTGACGAGTC CCCAGAGCCA
    GAGGCCAGTG GGCGAGGGGA ACGCCTGGGC AGGAAGGTGG CCCCTTTGGC CACCACCGAA
    GACTCTCTGG CTTCCATCCC CTTTATTGAT GAGCCCACCA GCCCCAGCAT TGACCTCCAA
    GCCAAGCACG TCCCTGCCTC TGCTGTGGTC TCCAGTGCCA TGAACTCAGC CCCTGTCCTG
    GGCACCAGCC CATCTTCCCC GACCTTCACT TTCACCCTCG GACGCCATTA CTCGCAGGAC
    TGCAGCAGCA TCAAGGCTGG CCGCCGCTCC TCCTACCTGC TGGCCATCAC CACGGAGCGC
    TCCAAGTCCT GCGATGATGG ACTCAACACC TTCCGCGACG AGGGCCGGGT TCTGCGGCGC
    CTGCCAAACC GCATACCCAG CCTGCGGATG CTCCGGAGCT TCTTCACCGA CGGGTCCTTG
    GATAGCTGGG GCACCTCTGA AGATGCTGAC GCTCCTTCTA AGCGACACTC AACCTCTGAC
    CTCTCAGATG CGACCTTCAG CGATATCAGG AGAGAAGGCT GGTTGTATTA TAAGCAGATT
    CTCACCAAGA AGGGGAAGAA AGCGGGCAGC GGCCTGCGCC AGTGGAAGCG GGTGTACGCC
    GCGCTGCGGG CGCGCTCGCT CTCGCTGAGC AAGGAGCGGC GGGAGCCCGG GCCGGCGGCG
    GCGGGGGCTG CGGCGGCCGG CGCAGGTGAG GACGAGGCGG CGCCCGTCTG CATCGGCTCC
    TGCCTCGTGG ACATCTCCTA CAGCGAGACC AAGAGGAGGC ACGTGTTCCG GCTGACCACC
    GCTGACTTCT GTGAATATCT CTTTCAGGCT GAGGACCGGG ATGACATGCT GGGCTGGATC
    AGAGCGATCC GGGAGAACAG CAGGGCCGAG GGCGAGGACC CCGGCTGTGC CAACCAAGCT
    CTGATCAGCA AGAAGCTTAA CGATTATCGC AAAGTGAGCC ATAGCTCTGG GCCCAAAGCT
    GATTCCTCCC CCAAAGGCTC TCGCGGCCTG GGGGGCCTCA AGTCTGAGTT CCTCAAGCAG
    AGTGCGGCAC GTGGCCTCAG GACTCAGGAC CTGCCCGCAG GGAGCAAGGA TGACAGTGCT
    GCAGCCCCCA AAACCCCCTG GGGCATCAAC ATCATCAAGA AAAATAAGAA GGCCGCTCCG
    AGGGCGTTTG GGGTCAGGCT GGAGGAGTGC CAGCCAGCCA CGGAGAACCA GCGCGTCCCC
    TTAATCGTGG CTGCATGCTG TCGCATTGTG GAGGCACGAG GGCTGGAGTC CACAGGCATT
    TACCGAGTGC CCGGCAACAA TGCAGTGGTG TCCAGCCTAC AGGAGCAGCT CAACCGCGGG
    CCTGGTGACA TCAACCTGCA GGATGAGCGC TGGCAAGACC TCAATGTGAT CAGCAGCCTG
    CTCAAGTCCT TCTTCCGAAA GCTGCCCGAG CCTCTTTTCA CTGATGACAA ATACAACGAC
    TTCATCGAGG CCAACCGCAT TGAGGACGCG CGGGAGCGAA TGAGGACGCT GCGGAAGCTG
    ATCCGGGATC TCCCAGGACA CTACTATGAA ACGCTCAAAT TCCTTGTGGG CCATCTCAAG
    ACCATCGCTG ACCACTCTGA GAAAAACAAG ATGGAACCCC GGAACCTGGC CCTGGTCTTT
    GGGCCGACAC TGGTGAGGAC GTCTGAGGAC AACATGACAG ACATGGTGAC CCACATGCCT
    GACCGCTACA AGATCGTGGA GACACTGATC CAGCACTCAG ACTGGTTCTT CAGTGACGAA
    GAGGACAAGG GAGAGAGAAC CCCTGTGGGC GACAAGGAGC CTCAGGCAGT GCCCAACATT
    GAGTACCTCC TGCCCAACAT TGGCAGGACA GTGCCCCCTG GCGACCCGGG GTCAGCGGAC
    CTGTTGGAGA TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu70739
    Clone ID Related Accession (Same CDS sequence) XM_011525073.1
    Accession Version XM_011525073.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4431bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein 23 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGCCCCTGG AACGGGGACT GCCACTGGGC CCAAGAGATG GGTGCTCTCC TAGGCGCCCC 
    TTCCCCTGGC AGGGGCCGAG GACGCTGCTG CTGTACAAAA GTCCCCAGGA CGGCTTTGGC
    TTCACTCTGC GCCACTTCAT CGTGTACCCA CCCGAGTCGG CCGTGCACTG CAGCCTGAAG
    GAGGAAGAGA ATGGAGGCCG TGGAGGAGGA CCCTCCCCCC GGTACCGCCT GGAGCCCATG
    GACACCATCT TTGTCAAGAA TGTGAAGGAA GACGGCCCTG CCCATAGGGC GGGGCTTCGC
    ACAGGAGACC GGCTGGTAAA GGTGAATGGG GAAAGCGTCA TTGGGAAGAC CTACTCTCAG
    GTCATAGCTC TGATCCAGAA TAGTGATGAC ACTCTGGAGC TGTCTATCAT GCCCAAGGAC
    GAGGACATCC TCCAGCTGGC CTACTCCCAG GATGCCTACC TGAAAGGGAA CGAGCCGTAT
    TCTGGAGAGG CCCGCAGCAT CCCAGAGCCA CCCCCGATCT GCTACCCCCG CAAGACCTAC
    GCCCCTCCTG CCCGGGCCTC CACCAGGGCC ACTATGGTGC CTGAGCCCAC CTCAGCACTG
    CCCAGTGACC CCCGGAGTCC TGCTGCCTGG AGTGACCCGG GGCTCCGTGT GCCACCTGCT
    GCCCGTGCCC ACCTGGACAA CTCTTCCTTG GGGATGAGCC AGCCCCGCCC CAGCCCTGGT
    GCCTTCCCCC ACCTCTCCTC GGAGCCCCGG ACGCCCCGTG CCTTCCCAGA GCCTGGCAGC
    CGGGTGCCCC CCAGCAGACT GGAGTGCCAG CAGGCCTTGT CACACTGGCT GTCAAACCAG
    GTACCCCGCC GGGCGGGGGA GAGACGGTGC CCAGCCATGG CCCCCCGGGC CCGCAGCGCC
    TCCCAGGACC GGTTGGAGGA GGTGGCTGCC CCCCGCCCGT GGCCCTGCTC CACCTCCCAG
    GATGCTTTGA GCCAGCTGGG CCAGGAGGGC TGGCACCGAG CTCGCTCAGA TGACTACTTG
    AGCCGGGCCA CCCGTTCTGC CGAGGCACTG GGGCCAGGGG CACTGGTGTC ACCCCGCTTT
    GAGCGGTGTG GCTGGGCTTC CCAGCGTTCG TCTGCCCGCA CCCCCGCCTG CCCAACTCGG
    GACCTGCCAG GGCCCCAGGC CCCACCCCCG TCTGGCCTGC AGGGCCTGGA TGACCTCGGG
    TACATCGGCT ACCGGAGCTA CAGCCCATCA TTCCAGCGCC GGACCGGCCT CCTCCATGCG
    CTCTCCTTCC GGGACTCACC CTTTGGGGGG CTGCCTACCT TCAACCTGGC CCAGTCCCCT
    GCGTCATTCC CACCAGAGGC CTCCGAGCCA CCCAGGGTTG TACGGCCGGA ACCCAGCACC
    CGGGCCCTGG AGCCTCCTGC GGAGGATCGC GGCGATGAGG TGGTCCTGAG GCAGAAGCCC
    CCGACGGGCC GCAAGGTTCA GCTGACCCCC GCAAGACAGA TGAACCTTGG ATTTGGTGAC
    GAGTCCCCAG AGCCAGAGGC CAGTGGGCGA GGGGAACGCC TGGGCAGGAA GGTGGCCCCT
    TTGGCCACCA CCGAAGACTC TCTGGCTTCC ATCCCCTTTA TTGATGAGCC CACCAGCCCC
    AGCATTGACC TCCAAGCCAA GCACGTCCCT GCCTCTGCTG TGGTCTCCAG TGCCATGAAC
    TCAGCCCCTG TCCTGGGCAC CAGCCCATCT TCCCCGACCT TCACTTTCAC CCTCGGACGC
    CATTACTCGC AGGACTGCAG CAGCATCAAG GCTGGCCGCC GCTCCTCCTA CCTGCTGGCC
    ATCACCACGG AGCGCTCCAA GTCCTGCGAT GATGGACTCA ACACCTTCCG CGACGAGGGC
    CGGGTTCTGC GGCGCCTGCC AAACCGCATA CCCAGCCTGC GGATGCTCCG GAGCTTCTTC
    ACCGACGGGT CCTTGGATAG CTGGGGCACC TCTGAAGATG CTGACGCTCC TTCTAAGCGA
    CACTCAACCT CTGACCTCTC AGATGCGACC TTCAGCGATA TCAGGAGAGA AGGCTGGTTG
    TATTATAAGC AGATTCTCAC CAAGAAGGGG AAGAAAGCGG GCAGCGGCCT GCGCCAGTGG
    AAGCGGGTGT ACGCCGCGCT GCGGGCGCGC TCGCTCTCGC TGAGCAAGGA GCGGCGGGAG
    CCCGGGCCGG CGGCGGCGGG GGCTGCGGCG GCCGGCGCAG GTGAGGACGA GGCGGCGCCC
    GTCTGCATCG GCTCCTGCCT CGTGGACATC TCCTACAGCG AGACCAAGAG GAGGCACGTG
    TTCCGGCTGA CCACCGCTGA CTTCTGTGAA TATCTCTTTC AGGCTGAGGA CCGGGATGAC
    ATGCTGGGCT GGATCAGAGC GATCCGGGAG AACAGCAGGG CCGAGGGCGA GGACCCCGGC
    TGTGCCAACC AAGCTCTGAT CAGCAAGAAG CTTAACGATT ATCGCAAAGT GAGCCATAGC
    TCTGGGCCCA AAGCTGATTC CTCCCCCAAA GGCTCTCGCG GCCTGGGGGG CCTCAAGTCT
    GAGTTCCTCA AGCAGAGTGC GGCACGTGGC CTCAGGACTC AGGACCTGCC CGCAGGGAGC
    AAGGATGACA GTGCTGCAGC CCCCAAAACC CCCTGGGGCA TCAACATCAT CAAGAAAAAT
    AAGAAGGCCG CTCCGAGGGC GTTTGGGGTC AGGCTGGAGG AGTGCCAGCC AGCCACGGAG
    AACCAGCGCG TCCCCTTAAT CGTGGCTGCA TGCTGTCGCA TTGTGGAGGC ACGAGGGCTG
    GAGTCCACAG GCATTTACCG AGTGCCCGGC AACAATGCAG TGGTGTCCAG CCTACAGGAG
    CAGCTCAACC GCGGGCCTGG TGACATCAAC CTGCAGGATG AGCGCTGGCA AGACCTCAAT
    GTGATCAGCA GCCTGCTCAA GTCCTTCTTC CGAAAGCTGC CCGAGCCTCT TTTCACTGAT
    GACAAATACA ACGACTTCAT CGAGGCCAAC CGCATTGAGG ACGCGCGGGA GCGAATGAGG
    ACGCTGCGGA AGCTGATCCG GGATCTCCCA GGACACTACT ATGAAACGCT CAAATTCCTT
    GTGGGCCATC TCAAGACCAT CGCTGACCAC TCTGAGAAAA ACAAGATGGA ACCCCGGAAC
    CTGGCCCTGG TCTTTGGGCC GACACTGGTG AGGACGTCTG AGGACAACAT GACAGACATG
    GTGACCCACA TGCCTGACCG CTACAAGATC GTGGAGACAC TGATCCAGCA CTCAGACTGG
    TTCTTCAGTG ACGAAGAGGA CAAGGGAGAG AGAACCCCTG TGGGCGACAA GGAGCCTCAG
    GCAGTGCCCA ACATTGAGTA CCTCCTGCCC AACATTGGCA GGACAGTGCC CCCTGGCGAC
    CCGGGGTCAG ATTCTACCAC CTGTAGTTCA GCCAAGTCCA AGGGTTCGTG GGCCCCCAAG
    AAGGAGCCGT ACGCCCGGGA GATGCTGGCG ATCTCCTTCA TCTCGGCCGT CAACCGCAAG
    CGCAAGAAGC GGCGGGAGGC GCGGGGGCTG GGCAGCAGCA CCGACGACGA CTCGGAGCAG
    GAGGCGCACA AGCCTGGGGC GGGGGCCACA GCGCCGGGGA CTCAGGAGCG GCCGCAGGGG
    CCGCTGCCTG GCGCCGTCGC CCCCGAGGCC CCCGGACGCC TCAGTCCCCC GGCGGCGCCG
    GAGGAGCGGC CGGCCGCGGA CACGCGCTCC ATTGTGTCGG GCTACTCCAC CCTGTCCACC
    ATGGACCGCA GCGTGTGCTC GGGCGCTAGC GGTCGGCGGG CAGGGGCGGG GGATGAGGCG
    GACGACGAGC GTAGCGAGCT GAGCCACGTG GAGACGGACA CTGAGGGCGC GGCGGGCGCG
    GGGCCTGGGG GGCGCCTGAC ACGCCGGCCG TCCTTCAGCT CGCACCACCT CATGCCCTGC
    GACACTCTGG CGCGCCGCCG CCTGGCCCGG GGCCGCCCAG ACGGCGAGGG CGCGGGCCGG
    GGCGGTCCCC GCGCCCCGGA GCCGCCCGGC TCGGCGTCGT CCAGCAGCCA GGAGTCGCTG
    CGGCCCCCGG CGGCGGCGCT GGCCTCCCGG CCCTCGCGCA TGGAGGCGCT GCGTCTAAGG
    CTCCGCGGCA CGGCGGACGA CATGCTCGCC GTGCGCCTGC GGCGGCCGCT GTCGCCCGAG
    ACCCGGCGGC GCCGGAGCAG CTGGCGCCGC CACACCGTGG TGGTGCAGAG CCCGCTGACT
    GACCTCAACT TCAACGAGTG GAAGGAGCTG GGCGGAGGGG GCCCCCCGGA GCCTGCGGGC
    GCGCGGGCGC ACAGTGACAA CAAGGACTCC GGACTCAGCA GCCTGGAGTC CACCAAGGCG
    CGGGCCCCGT CGTCCGCTGC CTCGCAGCCG CCCGCGCCCG GGGACACGGG GTCCCTGCAG
    AGCCAGCCCC CGCGCCGCTC GGCCGCCTCC CGCCTGCATC AGTGTCTGTG A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011523375.1
    CDS16..4446
    Translation

    Target ORF information:

    RefSeq Version XM_011525073.1
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011525073.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGCCCCTGG AACGGGGACT GCCACTGGGC CCAAGAGATG GGTGCTCTCC TAGGCGCCCC 
    TTCCCCTGGC AGGGGCCGAG GACGCTGCTG CTGTACAAAA GTCCCCAGGA CGGCTTTGGC
    TTCACTCTGC GCCACTTCAT CGTGTACCCA CCCGAGTCGG CCGTGCACTG CAGCCTGAAG
    GAGGAAGAGA ATGGAGGCCG TGGAGGAGGA CCCTCCCCCC GGTACCGCCT GGAGCCCATG
    GACACCATCT TTGTCAAGAA TGTGAAGGAA GACGGCCCTG CCCATAGGGC GGGGCTTCGC
    ACAGGAGACC GGCTGGTAAA GGTGAATGGG GAAAGCGTCA TTGGGAAGAC CTACTCTCAG
    GTCATAGCTC TGATCCAGAA TAGTGATGAC ACTCTGGAGC TGTCTATCAT GCCCAAGGAC
    GAGGACATCC TCCAGCTGGC CTACTCCCAG GATGCCTACC TGAAAGGGAA CGAGCCGTAT
    TCTGGAGAGG CCCGCAGCAT CCCAGAGCCA CCCCCGATCT GCTACCCCCG CAAGACCTAC
    GCCCCTCCTG CCCGGGCCTC CACCAGGGCC ACTATGGTGC CTGAGCCCAC CTCAGCACTG
    CCCAGTGACC CCCGGAGTCC TGCTGCCTGG AGTGACCCGG GGCTCCGTGT GCCACCTGCT
    GCCCGTGCCC ACCTGGACAA CTCTTCCTTG GGGATGAGCC AGCCCCGCCC CAGCCCTGGT
    GCCTTCCCCC ACCTCTCCTC GGAGCCCCGG ACGCCCCGTG CCTTCCCAGA GCCTGGCAGC
    CGGGTGCCCC CCAGCAGACT GGAGTGCCAG CAGGCCTTGT CACACTGGCT GTCAAACCAG
    GTACCCCGCC GGGCGGGGGA GAGACGGTGC CCAGCCATGG CCCCCCGGGC CCGCAGCGCC
    TCCCAGGACC GGTTGGAGGA GGTGGCTGCC CCCCGCCCGT GGCCCTGCTC CACCTCCCAG
    GATGCTTTGA GCCAGCTGGG CCAGGAGGGC TGGCACCGAG CTCGCTCAGA TGACTACTTG
    AGCCGGGCCA CCCGTTCTGC CGAGGCACTG GGGCCAGGGG CACTGGTGTC ACCCCGCTTT
    GAGCGGTGTG GCTGGGCTTC CCAGCGTTCG TCTGCCCGCA CCCCCGCCTG CCCAACTCGG
    GACCTGCCAG GGCCCCAGGC CCCACCCCCG TCTGGCCTGC AGGGCCTGGA TGACCTCGGG
    TACATCGGCT ACCGGAGCTA CAGCCCATCA TTCCAGCGCC GGACCGGCCT CCTCCATGCG
    CTCTCCTTCC GGGACTCACC CTTTGGGGGG CTGCCTACCT TCAACCTGGC CCAGTCCCCT
    GCGTCATTCC CACCAGAGGC CTCCGAGCCA CCCAGGGTTG TACGGCCGGA ACCCAGCACC
    CGGGCCCTGG AGCCTCCTGC GGAGGATCGC GGCGATGAGG TGGTCCTGAG GCAGAAGCCC
    CCGACGGGCC GCAAGGTTCA GCTGACCCCC GCAAGACAGA TGAACCTTGG ATTTGGTGAC
    GAGTCCCCAG AGCCAGAGGC CAGTGGGCGA GGGGAACGCC TGGGCAGGAA GGTGGCCCCT
    TTGGCCACCA CCGAAGACTC TCTGGCTTCC ATCCCCTTTA TTGATGAGCC CACCAGCCCC
    AGCATTGACC TCCAAGCCAA GCACGTCCCT GCCTCTGCTG TGGTCTCCAG TGCCATGAAC
    TCAGCCCCTG TCCTGGGCAC CAGCCCATCT TCCCCGACCT TCACTTTCAC CCTCGGACGC
    CATTACTCGC AGGACTGCAG CAGCATCAAG GCTGGCCGCC GCTCCTCCTA CCTGCTGGCC
    ATCACCACGG AGCGCTCCAA GTCCTGCGAT GATGGACTCA ACACCTTCCG CGACGAGGGC
    CGGGTTCTGC GGCGCCTGCC AAACCGCATA CCCAGCCTGC GGATGCTCCG GAGCTTCTTC
    ACCGACGGGT CCTTGGATAG CTGGGGCACC TCTGAAGATG CTGACGCTCC TTCTAAGCGA
    CACTCAACCT CTGACCTCTC AGATGCGACC TTCAGCGATA TCAGGAGAGA AGGCTGGTTG
    TATTATAAGC AGATTCTCAC CAAGAAGGGG AAGAAAGCGG GCAGCGGCCT GCGCCAGTGG
    AAGCGGGTGT ACGCCGCGCT GCGGGCGCGC TCGCTCTCGC TGAGCAAGGA GCGGCGGGAG
    CCCGGGCCGG CGGCGGCGGG GGCTGCGGCG GCCGGCGCAG GTGAGGACGA GGCGGCGCCC
    GTCTGCATCG GCTCCTGCCT CGTGGACATC TCCTACAGCG AGACCAAGAG GAGGCACGTG
    TTCCGGCTGA CCACCGCTGA CTTCTGTGAA TATCTCTTTC AGGCTGAGGA CCGGGATGAC
    ATGCTGGGCT GGATCAGAGC GATCCGGGAG AACAGCAGGG CCGAGGGCGA GGACCCCGGC
    TGTGCCAACC AAGCTCTGAT CAGCAAGAAG CTTAACGATT ATCGCAAAGT GAGCCATAGC
    TCTGGGCCCA AAGCTGATTC CTCCCCCAAA GGCTCTCGCG GCCTGGGGGG CCTCAAGTCT
    GAGTTCCTCA AGCAGAGTGC GGCACGTGGC CTCAGGACTC AGGACCTGCC CGCAGGGAGC
    AAGGATGACA GTGCTGCAGC CCCCAAAACC CCCTGGGGCA TCAACATCAT CAAGAAAAAT
    AAGAAGGCCG CTCCGAGGGC GTTTGGGGTC AGGCTGGAGG AGTGCCAGCC AGCCACGGAG
    AACCAGCGCG TCCCCTTAAT CGTGGCTGCA TGCTGTCGCA TTGTGGAGGC ACGAGGGCTG
    GAGTCCACAG GCATTTACCG AGTGCCCGGC AACAATGCAG TGGTGTCCAG CCTACAGGAG
    CAGCTCAACC GCGGGCCTGG TGACATCAAC CTGCAGGATG AGCGCTGGCA AGACCTCAAT
    GTGATCAGCA GCCTGCTCAA GTCCTTCTTC CGAAAGCTGC CCGAGCCTCT TTTCACTGAT
    GACAAATACA ACGACTTCAT CGAGGCCAAC CGCATTGAGG ACGCGCGGGA GCGAATGAGG
    ACGCTGCGGA AGCTGATCCG GGATCTCCCA GGACACTACT ATGAAACGCT CAAATTCCTT
    GTGGGCCATC TCAAGACCAT CGCTGACCAC TCTGAGAAAA ACAAGATGGA ACCCCGGAAC
    CTGGCCCTGG TCTTTGGGCC GACACTGGTG AGGACGTCTG AGGACAACAT GACAGACATG
    GTGACCCACA TGCCTGACCG CTACAAGATC GTGGAGACAC TGATCCAGCA CTCAGACTGG
    TTCTTCAGTG ACGAAGAGGA CAAGGGAGAG AGAACCCCTG TGGGCGACAA GGAGCCTCAG
    GCAGTGCCCA ACATTGAGTA CCTCCTGCCC AACATTGGCA GGACAGTGCC CCCTGGCGAC
    CCGGGGTCAG ATTCTACCAC CTGTAGTTCA GCCAAGTCCA AGGGTTCGTG GGCCCCCAAG
    AAGGAGCCGT ACGCCCGGGA GATGCTGGCG ATCTCCTTCA TCTCGGCCGT CAACCGCAAG
    CGCAAGAAGC GGCGGGAGGC GCGGGGGCTG GGCAGCAGCA CCGACGACGA CTCGGAGCAG
    GAGGCGCACA AGCCTGGGGC GGGGGCCACA GCGCCGGGGA CTCAGGAGCG GCCGCAGGGG
    CCGCTGCCTG GCGCCGTCGC CCCCGAGGCC CCCGGACGCC TCAGTCCCCC GGCGGCGCCG
    GAGGAGCGGC CGGCCGCGGA CACGCGCTCC ATTGTGTCGG GCTACTCCAC CCTGTCCACC
    ATGGACCGCA GCGTGTGCTC GGGCGCTAGC GGTCGGCGGG CAGGGGCGGG GGATGAGGCG
    GACGACGAGC GTAGCGAGCT GAGCCACGTG GAGACGGACA CTGAGGGCGC GGCGGGCGCG
    GGGCCTGGGG GGCGCCTGAC ACGCCGGCCG TCCTTCAGCT CGCACCACCT CATGCCCTGC
    GACACTCTGG CGCGCCGCCG CCTGGCCCGG GGCCGCCCAG ACGGCGAGGG CGCGGGCCGG
    GGCGGTCCCC GCGCCCCGGA GCCGCCCGGC TCGGCGTCGT CCAGCAGCCA GGAGTCGCTG
    CGGCCCCCGG CGGCGGCGCT GGCCTCCCGG CCCTCGCGCA TGGAGGCGCT GCGTCTAAGG
    CTCCGCGGCA CGGCGGACGA CATGCTCGCC GTGCGCCTGC GGCGGCCGCT GTCGCCCGAG
    ACCCGGCGGC GCCGGAGCAG CTGGCGCCGC CACACCGTGG TGGTGCAGAG CCCGCTGACT
    GACCTCAACT TCAACGAGTG GAAGGAGCTG GGCGGAGGGG GCCCCCCGGA GCCTGCGGGC
    GCGCGGGCGC ACAGTGACAA CAAGGACTCC GGACTCAGCA GCCTGGAGTC CACCAAGGCG
    CGGGCCCCGT CGTCCGCTGC CTCGCAGCCG CCCGCGCCCG GGGACACGGG GTCCCTGCAG
    AGCCAGCCCC CGCGCCGCTC GGCCGCCTCC CGCCTGCATC AGTGTCTGTG A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu70740
    Clone ID Related Accession (Same CDS sequence) XM_011525074.2
    Accession Version XM_011525074.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4194bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein 23 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011525074.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGGACACCA TCTTTGTCAA GAATGTGAAG GAAGACGGCC CTGCCCATAG GGCGGGGCTT 
    CGCACAGGAG ACCGGCTGGT AAAGGTGAAT GGGGAAAGCG TCATTGGGAA GACCTACTCT
    CAGGTCATAG CTCTGATCCA GAATAGTGAT GACACTCTGG AGCTGTCTAT CATGCCCAAG
    GACGAGGACA TCCTCCAGCT GGCCTACTCC CAGGATGCCT ACCTGAAAGG GAACGAGCCG
    TATTCTGGAG AGGCCCGCAG CATCCCAGAG CCACCCCCGA TCTGCTACCC CCGCAAGACC
    TACGCCCCTC CTGCCCGGGC CTCCACCAGG GCCACTATGG TGCCTGAGCC CACCTCAGCA
    CTGCCCAGTG ACCCCCGGAG TCCTGCTGCC TGGAGTGACC CGGGGCTCCG TGTGCCACCT
    GCTGCCCGTG CCCACCTGGA CAACTCTTCC TTGGGGATGA GCCAGCCCCG CCCCAGCCCT
    GGTGCCTTCC CCCACCTCTC CTCGGAGCCC CGGACGCCCC GTGCCTTCCC AGAGCCTGGC
    AGCCGGGTGC CCCCCAGCAG ACTGGAGTGC CAGCAGGCCT TGTCACACTG GCTGTCAAAC
    CAGGTACCCC GCCGGGCGGG GGAGAGACGG TGCCCAGCCA TGGCCCCCCG GGCCCGCAGC
    GCCTCCCAGG ACCGGTTGGA GGAGGTGGCT GCCCCCCGCC CGTGGCCCTG CTCCACCTCC
    CAGGATGCTT TGAGCCAGCT GGGCCAGGAG GGCTGGCACC GAGCTCGCTC AGATGACTAC
    TTGAGCCGGG CCACCCGTTC TGCCGAGGCA CTGGGGCCAG GGGCACTGGT GTCACCCCGC
    TTTGAGCGGT GTGGCTGGGC TTCCCAGCGT TCGTCTGCCC GCACCCCCGC CTGCCCAACT
    CGGGACCTGC CAGGGCCCCA GGCCCCACCC CCGTCTGGCC TGCAGGGCCT GGATGACCTC
    GGGTACATCG GCTACCGGAG CTACAGCCCA TCATTCCAGC GCCGGACCGG CCTCCTCCAT
    GCGCTCTCCT TCCGGGACTC ACCCTTTGGG GGGCTGCCTA CCTTCAACCT GGCCCAGTCC
    CCTGCGTCAT TCCCACCAGA GGCCTCCGAG CCACCCAGGG TTGTACGGCC GGAACCCAGC
    ACCCGGGCCC TGGAGCCTCC TGCGGAGGAT CGCGGCGATG AGGTGGTCCT GAGGCAGAAG
    CCCCCGACGG GCCGCAAGGT TCAGCTGACC CCCGCAAGAC AGATGAACCT TGGATTTGGT
    GACGAGTCCC CAGAGCCAGA GGCCAGTGGG CGAGGGGAAC GCCTGGGCAG GAAGGTGGCC
    CCTTTGGCCA CCACCGAAGA CTCTCTGGCT TCCATCCCCT TTATTGATGA GCCCACCAGC
    CCCAGCATTG ACCTCCAAGC CAAGCACGTC CCTGCCTCTG CTGTGGTCTC CAGTGCCATG
    AACTCAGCCC CTGTCCTGGG CACCAGCCCA TCTTCCCCGA CCTTCACTTT CACCCTCGGA
    CGCCATTACT CGCAGGACTG CAGCAGCATC AAGGCTGGCC GCCGCTCCTC CTACCTGCTG
    GCCATCACCA CGGAGCGCTC CAAGTCCTGC GATGATGGAC TCAACACCTT CCGCGACGAG
    GGCCGGGTTC TGCGGCGCCT GCCAAACCGC ATACCCAGCC TGCGGATGCT CCGGAGCTTC
    TTCACCGACG GGTCCTTGGA TAGCTGGGGC ACCTCTGAAG ATGCTGACGC TCCTTCTAAG
    CGACACTCAA CCTCTGACCT CTCAGATGCG ACCTTCAGCG ATATCAGGAG AGAAGGCTGG
    TTGTATTATA AGCAGATTCT CACCAAGAAG GGGAAGAAAG CGGGCAGCGG CCTGCGCCAG
    TGGAAGCGGG TGTACGCCGC GCTGCGGGCG CGCTCGCTCT CGCTGAGCAA GGAGCGGCGG
    GAGCCCGGGC CGGCGGCGGC GGGGGCTGCG GCGGCCGGCG CAGGTGAGGA CGAGGCGGCG
    CCCGTCTGCA TCGGCTCCTG CCTCGTGGAC ATCTCCTACA GCGAGACCAA GAGGAGGCAC
    GTGTTCCGGC TGACCACCGC TGACTTCTGT GAATATCTCT TTCAGGCTGA GGACCGGGAT
    GACATGCTGG GCTGGATCAG AGCGATCCGG GAGAACAGCA GGGCCGAGGG CGAGGACCCC
    GGCTGTGCCA ACCAAGCTCT GATCAGCAAG AAGCTTAACG ATTATCGCAA AGTGAGCCAT
    AGCTCTGGGC CCAAAGCTGA TTCCTCCCCC AAAGGCTCTC GCGGCCTGGG GGGCCTCAAG
    TCTGAGTTCC TCAAGCAGAG TGCGGCACGT GGCCTCAGGA CTCAGGACCT GCCCGCAGGG
    AGCAAGGATG ACAGTGCTGC AGCCCCCAAA ACCCCCTGGG GCATCAACAT CATCAAGAAA
    AATAAGAAGG CCGCTCCGAG GGCGTTTGGG GTCAGGCTGG AGGAGTGCCA GCCAGCCACG
    GAGAACCAGC GCGTCCCCTT AATCGTGGCT GCATGCTGTC GCATTGTGGA GGCACGAGGG
    CTGGAGTCCA CAGGCATTTA CCGAGTGCCC GGCAACAATG CAGTGGTGTC CAGCCTACAG
    GAGCAGCTCA ACCGCGGGCC TGGTGACATC AACCTGCAGG ATGAGCGCTG GCAAGACCTC
    AATGTGATCA GCAGCCTGCT CAAGTCCTTC TTCCGAAAGC TGCCCGAGCC TCTTTTCACT
    GATGACAAAT ACAACGACTT CATCGAGGCC AACCGCATTG AGGACGCGCG GGAGCGAATG
    AGGACGCTGC GGAAGCTGAT CCGGGATCTC CCAGGACACT ACTATGAAAC GCTCAAATTC
    CTTGTGGGCC ATCTCAAGAC CATCGCTGAC CACTCTGAGA AAAACAAGAT GGAACCCCGG
    AACCTGGCCC TGGTCTTTGG GCCGACACTG GTGAGGACGT CTGAGGACAA CATGACAGAC
    ATGGTGACCC ACATGCCTGA CCGCTACAAG ATCGTGGAGA CACTGATCCA GCACTCAGAC
    TGGTTCTTCA GTGACGAAGA GGACAAGGGA GAGAGAACCC CTGTGGGCGA CAAGGAGCCT
    CAGGCAGTGC CCAACATTGA GTACCTCCTG CCCAACATTG GCAGGACAGT GCCCCCTGGC
    GACCCGGGGT CAGATTCTAC CACCTGTAGT TCAGCCAAGT CCAAGGGTTC GTGGGCCCCC
    AAGAAGGAGC CGTACGCCCG GGAGATGCTG GCGATCTCCT TCATCTCGGC CGTCAACCGC
    AAGCGCAAGA AGCGGCGGGA GGCGCGGGGG CTGGGCAGCA GCACCGACGA CGACTCGGAG
    CAGGAGGCGC ACAAGCCTGG GGCGGGGGCC ACAGCGCCGG GGACTCAGGA GCGGCCGCAG
    GGGCCGCTGC CTGGCGCCGT CGCCCCCGAG GCCCCCGGAC GCCTCAGTCC CCCGGCGGCG
    CCGGAGGAGC GGCCGGCCGC GGACACGCGC TCCATTGTGT CGGGCTACTC CACCCTGTCC
    ACCATGGACC GCAGCGTGTG CTCGGGCGCT AGCGGTCGGC GGGCAGGGGC GGGGGATGAG
    GCGGACGACG AGCGTAGCGA GCTGAGCCAC GTGGAGACGG ACACTGAGGG CGCGGCGGGC
    GCGGGGCCTG GGGGGCGCCT GACACGCCGG CCGTCCTTCA GCTCGCACCA CCTCATGCCC
    TGCGACACTC TGGCGCGCCG CCGCCTGGCC CGGGGCCGCC CAGACGGCGA GGGCGCGGGC
    CGGGGCGGTC CCCGCGCCCC GGAGCCGCCC GGCTCGGCGT CGTCCAGCAG CCAGGAGTCG
    CTGCGGCCCC CGGCGGCGGC GCTGGCCTCC CGGCCCTCGC GCATGGAGGC GCTGCGTCTA
    AGGCTCCGCG GCACGGCGGA CGACATGCTC GCCGTGCGCC TGCGGCGGCC GCTGTCGCCC
    GAGACCCGGC GGCGCCGGAG CAGCTGGCGC CGCCACACCG TGGTGGTGCA GAGCCCGCTG
    ACTGACCTCA ACTTCAACGA GTGGAAGGAG CTGGGCGGAG GGGGCCCCCC GGAGCCTGCG
    GGCGCGCGGG CGCACAGTGA CAACAAGGAC TCCGGACTCA GCAGCCTGGA GTCCACCAAG
    GCGCGGGCCC CGTCGTCCGC TGCCTCGCAG CCGCCCGCGC CCGGGGACAC GGGGTCCCTG
    CAGAGCCAGC CCCCGCGCCG CTCGGCCGCC TCCCGCCTGC ATCAGTGTCT GTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011523376.1
    CDS352..4545
    Translation

    Target ORF information:

    RefSeq Version XM_011525074.2
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011525074.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGGACACCA TCTTTGTCAA GAATGTGAAG GAAGACGGCC CTGCCCATAG GGCGGGGCTT 
    CGCACAGGAG ACCGGCTGGT AAAGGTGAAT GGGGAAAGCG TCATTGGGAA GACCTACTCT
    CAGGTCATAG CTCTGATCCA GAATAGTGAT GACACTCTGG AGCTGTCTAT CATGCCCAAG
    GACGAGGACA TCCTCCAGCT GGCCTACTCC CAGGATGCCT ACCTGAAAGG GAACGAGCCG
    TATTCTGGAG AGGCCCGCAG CATCCCAGAG CCACCCCCGA TCTGCTACCC CCGCAAGACC
    TACGCCCCTC CTGCCCGGGC CTCCACCAGG GCCACTATGG TGCCTGAGCC CACCTCAGCA
    CTGCCCAGTG ACCCCCGGAG TCCTGCTGCC TGGAGTGACC CGGGGCTCCG TGTGCCACCT
    GCTGCCCGTG CCCACCTGGA CAACTCTTCC TTGGGGATGA GCCAGCCCCG CCCCAGCCCT
    GGTGCCTTCC CCCACCTCTC CTCGGAGCCC CGGACGCCCC GTGCCTTCCC AGAGCCTGGC
    AGCCGGGTGC CCCCCAGCAG ACTGGAGTGC CAGCAGGCCT TGTCACACTG GCTGTCAAAC
    CAGGTACCCC GCCGGGCGGG GGAGAGACGG TGCCCAGCCA TGGCCCCCCG GGCCCGCAGC
    GCCTCCCAGG ACCGGTTGGA GGAGGTGGCT GCCCCCCGCC CGTGGCCCTG CTCCACCTCC
    CAGGATGCTT TGAGCCAGCT GGGCCAGGAG GGCTGGCACC GAGCTCGCTC AGATGACTAC
    TTGAGCCGGG CCACCCGTTC TGCCGAGGCA CTGGGGCCAG GGGCACTGGT GTCACCCCGC
    TTTGAGCGGT GTGGCTGGGC TTCCCAGCGT TCGTCTGCCC GCACCCCCGC CTGCCCAACT
    CGGGACCTGC CAGGGCCCCA GGCCCCACCC CCGTCTGGCC TGCAGGGCCT GGATGACCTC
    GGGTACATCG GCTACCGGAG CTACAGCCCA TCATTCCAGC GCCGGACCGG CCTCCTCCAT
    GCGCTCTCCT TCCGGGACTC ACCCTTTGGG GGGCTGCCTA CCTTCAACCT GGCCCAGTCC
    CCTGCGTCAT TCCCACCAGA GGCCTCCGAG CCACCCAGGG TTGTACGGCC GGAACCCAGC
    ACCCGGGCCC TGGAGCCTCC TGCGGAGGAT CGCGGCGATG AGGTGGTCCT GAGGCAGAAG
    CCCCCGACGG GCCGCAAGGT TCAGCTGACC CCCGCAAGAC AGATGAACCT TGGATTTGGT
    GACGAGTCCC CAGAGCCAGA GGCCAGTGGG CGAGGGGAAC GCCTGGGCAG GAAGGTGGCC
    CCTTTGGCCA CCACCGAAGA CTCTCTGGCT TCCATCCCCT TTATTGATGA GCCCACCAGC
    CCCAGCATTG ACCTCCAAGC CAAGCACGTC CCTGCCTCTG CTGTGGTCTC CAGTGCCATG
    AACTCAGCCC CTGTCCTGGG CACCAGCCCA TCTTCCCCGA CCTTCACTTT CACCCTCGGA
    CGCCATTACT CGCAGGACTG CAGCAGCATC AAGGCTGGCC GCCGCTCCTC CTACCTGCTG
    GCCATCACCA CGGAGCGCTC CAAGTCCTGC GATGATGGAC TCAACACCTT CCGCGACGAG
    GGCCGGGTTC TGCGGCGCCT GCCAAACCGC ATACCCAGCC TGCGGATGCT CCGGAGCTTC
    TTCACCGACG GGTCCTTGGA TAGCTGGGGC ACCTCTGAAG ATGCTGACGC TCCTTCTAAG
    CGACACTCAA CCTCTGACCT CTCAGATGCG ACCTTCAGCG ATATCAGGAG AGAAGGCTGG
    TTGTATTATA AGCAGATTCT CACCAAGAAG GGGAAGAAAG CGGGCAGCGG CCTGCGCCAG
    TGGAAGCGGG TGTACGCCGC GCTGCGGGCG CGCTCGCTCT CGCTGAGCAA GGAGCGGCGG
    GAGCCCGGGC CGGCGGCGGC GGGGGCTGCG GCGGCCGGCG CAGGTGAGGA CGAGGCGGCG
    CCCGTCTGCA TCGGCTCCTG CCTCGTGGAC ATCTCCTACA GCGAGACCAA GAGGAGGCAC
    GTGTTCCGGC TGACCACCGC TGACTTCTGT GAATATCTCT TTCAGGCTGA GGACCGGGAT
    GACATGCTGG GCTGGATCAG AGCGATCCGG GAGAACAGCA GGGCCGAGGG CGAGGACCCC
    GGCTGTGCCA ACCAAGCTCT GATCAGCAAG AAGCTTAACG ATTATCGCAA AGTGAGCCAT
    AGCTCTGGGC CCAAAGCTGA TTCCTCCCCC AAAGGCTCTC GCGGCCTGGG GGGCCTCAAG
    TCTGAGTTCC TCAAGCAGAG TGCGGCACGT GGCCTCAGGA CTCAGGACCT GCCCGCAGGG
    AGCAAGGATG ACAGTGCTGC AGCCCCCAAA ACCCCCTGGG GCATCAACAT CATCAAGAAA
    AATAAGAAGG CCGCTCCGAG GGCGTTTGGG GTCAGGCTGG AGGAGTGCCA GCCAGCCACG
    GAGAACCAGC GCGTCCCCTT AATCGTGGCT GCATGCTGTC GCATTGTGGA GGCACGAGGG
    CTGGAGTCCA CAGGCATTTA CCGAGTGCCC GGCAACAATG CAGTGGTGTC CAGCCTACAG
    GAGCAGCTCA ACCGCGGGCC TGGTGACATC AACCTGCAGG ATGAGCGCTG GCAAGACCTC
    AATGTGATCA GCAGCCTGCT CAAGTCCTTC TTCCGAAAGC TGCCCGAGCC TCTTTTCACT
    GATGACAAAT ACAACGACTT CATCGAGGCC AACCGCATTG AGGACGCGCG GGAGCGAATG
    AGGACGCTGC GGAAGCTGAT CCGGGATCTC CCAGGACACT ACTATGAAAC GCTCAAATTC
    CTTGTGGGCC ATCTCAAGAC CATCGCTGAC CACTCTGAGA AAAACAAGAT GGAACCCCGG
    AACCTGGCCC TGGTCTTTGG GCCGACACTG GTGAGGACGT CTGAGGACAA CATGACAGAC
    ATGGTGACCC ACATGCCTGA CCGCTACAAG ATCGTGGAGA CACTGATCCA GCACTCAGAC
    TGGTTCTTCA GTGACGAAGA GGACAAGGGA GAGAGAACCC CTGTGGGCGA CAAGGAGCCT
    CAGGCAGTGC CCAACATTGA GTACCTCCTG CCCAACATTG GCAGGACAGT GCCCCCTGGC
    GACCCGGGGT CAGATTCTAC CACCTGTAGT TCAGCCAAGT CCAAGGGTTC GTGGGCCCCC
    AAGAAGGAGC CGTACGCCCG GGAGATGCTG GCGATCTCCT TCATCTCGGC CGTCAACCGC
    AAGCGCAAGA AGCGGCGGGA GGCGCGGGGG CTGGGCAGCA GCACCGACGA CGACTCGGAG
    CAGGAGGCGC ACAAGCCTGG GGCGGGGGCC ACAGCGCCGG GGACTCAGGA GCGGCCGCAG
    GGGCCGCTGC CTGGCGCCGT CGCCCCCGAG GCCCCCGGAC GCCTCAGTCC CCCGGCGGCG
    CCGGAGGAGC GGCCGGCCGC GGACACGCGC TCCATTGTGT CGGGCTACTC CACCCTGTCC
    ACCATGGACC GCAGCGTGTG CTCGGGCGCT AGCGGTCGGC GGGCAGGGGC GGGGGATGAG
    GCGGACGACG AGCGTAGCGA GCTGAGCCAC GTGGAGACGG ACACTGAGGG CGCGGCGGGC
    GCGGGGCCTG GGGGGCGCCT GACACGCCGG CCGTCCTTCA GCTCGCACCA CCTCATGCCC
    TGCGACACTC TGGCGCGCCG CCGCCTGGCC CGGGGCCGCC CAGACGGCGA GGGCGCGGGC
    CGGGGCGGTC CCCGCGCCCC GGAGCCGCCC GGCTCGGCGT CGTCCAGCAG CCAGGAGTCG
    CTGCGGCCCC CGGCGGCGGC GCTGGCCTCC CGGCCCTCGC GCATGGAGGC GCTGCGTCTA
    AGGCTCCGCG GCACGGCGGA CGACATGCTC GCCGTGCGCC TGCGGCGGCC GCTGTCGCCC
    GAGACCCGGC GGCGCCGGAG CAGCTGGCGC CGCCACACCG TGGTGGTGCA GAGCCCGCTG
    ACTGACCTCA ACTTCAACGA GTGGAAGGAG CTGGGCGGAG GGGGCCCCCC GGAGCCTGCG
    GGCGCGCGGG CGCACAGTGA CAACAAGGAC TCCGGACTCA GCAGCCTGGA GTCCACCAAG
    GCGCGGGCCC CGTCGTCCGC TGCCTCGCAG CCGCCCGCGC CCGGGGACAC GGGGTCCCTG
    CAGAGCCAGC CCCCGCGCCG CTCGGCCGCC TCCCGCCTGC ATCAGTGTCT GTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu70741
    Clone ID Related Accession (Same CDS sequence) XM_011525075.2
    Accession Version XM_011525075.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3858bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein 23 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011525075.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGTGCCTG AGCCCACCTC AGCACTGCCC AGTGACCCCC GGAGTCCTGC TGCCTGGAGT 
    GACCCGGGGC TCCGTGTGCC ACCTGCTGCC CGTGCCCACC TGGACAACTC TTCCTTGGGG
    ATGAGCCAGC CCCGCCCCAG CCCTGGTGCC TTCCCCCACC TCTCCTCGGA GCCCCGGACG
    CCCCGTGCCT TCCCAGAGCC TGGCAGCCGG GTGCCCCCCA GCAGACTGGA GTGCCAGCAG
    GCCTTGTCAC ACTGGCTGTC AAACCAGGTA CCCCGCCGGG CGGGGGAGAG ACGGTGCCCA
    GCCATGGCCC CCCGGGCCCG CAGCGCCTCC CAGGACCGGT TGGAGGAGGT GGCTGCCCCC
    CGCCCGTGGC CCTGCTCCAC CTCCCAGGAT GCTTTGAGCC AGCTGGGCCA GGAGGGCTGG
    CACCGAGCTC GCTCAGATGA CTACTTGAGC CGGGCCACCC GTTCTGCCGA GGCACTGGGG
    CCAGGGGCAC TGGTGTCACC CCGCTTTGAG CGGTGTGGCT GGGCTTCCCA GCGTTCGTCT
    GCCCGCACCC CCGCCTGCCC AACTCGGGAC CTGCCAGGGC CCCAGGCCCC ACCCCCGTCT
    GGCCTGCAGG GCCTGGATGA CCTCGGGTAC ATCGGCTACC GGAGCTACAG CCCATCATTC
    CAGCGCCGGA CCGGCCTCCT CCATGCGCTC TCCTTCCGGG ACTCACCCTT TGGGGGGCTG
    CCTACCTTCA ACCTGGCCCA GTCCCCTGCG TCATTCCCAC CAGAGGCCTC CGAGCCACCC
    AGGGTTGTAC GGCCGGAACC CAGCACCCGG GCCCTGGAGC CTCCTGCGGA GGATCGCGGC
    GATGAGGTGG TCCTGAGGCA GAAGCCCCCG ACGGGCCGCA AGGTTCAGCT GACCCCCGCA
    AGACAGATGA ACCTTGGATT TGGTGACGAG TCCCCAGAGC CAGAGGCCAG TGGGCGAGGG
    GAACGCCTGG GCAGGAAGGT GGCCCCTTTG GCCACCACCG AAGACTCTCT GGCTTCCATC
    CCCTTTATTG ATGAGCCCAC CAGCCCCAGC ATTGACCTCC AAGCCAAGCA CGTCCCTGCC
    TCTGCTGTGG TCTCCAGTGC CATGAACTCA GCCCCTGTCC TGGGCACCAG CCCATCTTCC
    CCGACCTTCA CTTTCACCCT CGGACGCCAT TACTCGCAGG ACTGCAGCAG CATCAAGGCT
    GGCCGCCGCT CCTCCTACCT GCTGGCCATC ACCACGGAGC GCTCCAAGTC CTGCGATGAT
    GGACTCAACA CCTTCCGCGA CGAGGGCCGG GTTCTGCGGC GCCTGCCAAA CCGCATACCC
    AGCCTGCGGA TGCTCCGGAG CTTCTTCACC GACGGGTCCT TGGATAGCTG GGGCACCTCT
    GAAGATGCTG ACGCTCCTTC TAAGCGACAC TCAACCTCTG ACCTCTCAGA TGCGACCTTC
    AGCGATATCA GGAGAGAAGG CTGGTTGTAT TATAAGCAGA TTCTCACCAA GAAGGGGAAG
    AAAGCGGGCA GCGGCCTGCG CCAGTGGAAG CGGGTGTACG CCGCGCTGCG GGCGCGCTCG
    CTCTCGCTGA GCAAGGAGCG GCGGGAGCCC GGGCCGGCGG CGGCGGGGGC TGCGGCGGCC
    GGCGCAGGTG AGGACGAGGC GGCGCCCGTC TGCATCGGCT CCTGCCTCGT GGACATCTCC
    TACAGCGAGA CCAAGAGGAG GCACGTGTTC CGGCTGACCA CCGCTGACTT CTGTGAATAT
    CTCTTTCAGG CTGAGGACCG GGATGACATG CTGGGCTGGA TCAGAGCGAT CCGGGAGAAC
    AGCAGGGCCG AGGGCGAGGA CCCCGGCTGT GCCAACCAAG CTCTGATCAG CAAGAAGCTT
    AACGATTATC GCAAAGTGAG CCATAGCTCT GGGCCCAAAG CTGATTCCTC CCCCAAAGGC
    TCTCGCGGCC TGGGGGGCCT CAAGTCTGAG TTCCTCAAGC AGAGTGCGGC ACGTGGCCTC
    AGGACTCAGG ACCTGCCCGC AGGGAGCAAG GATGACAGTG CTGCAGCCCC CAAAACCCCC
    TGGGGCATCA ACATCATCAA GAAAAATAAG AAGGCCGCTC CGAGGGCGTT TGGGGTCAGG
    CTGGAGGAGT GCCAGCCAGC CACGGAGAAC CAGCGCGTCC CCTTAATCGT GGCTGCATGC
    TGTCGCATTG TGGAGGCACG AGGGCTGGAG TCCACAGGCA TTTACCGAGT GCCCGGCAAC
    AATGCAGTGG TGTCCAGCCT ACAGGAGCAG CTCAACCGCG GGCCTGGTGA CATCAACCTG
    CAGGATGAGC GCTGGCAAGA CCTCAATGTG ATCAGCAGCC TGCTCAAGTC CTTCTTCCGA
    AAGCTGCCCG AGCCTCTTTT CACTGATGAC AAATACAACG ACTTCATCGA GGCCAACCGC
    ATTGAGGACG CGCGGGAGCG AATGAGGACG CTGCGGAAGC TGATCCGGGA TCTCCCAGGA
    CACTACTATG AAACGCTCAA ATTCCTTGTG GGCCATCTCA AGACCATCGC TGACCACTCT
    GAGAAAAACA AGATGGAACC CCGGAACCTG GCCCTGGTCT TTGGGCCGAC ACTGGTGAGG
    ACGTCTGAGG ACAACATGAC AGACATGGTG ACCCACATGC CTGACCGCTA CAAGATCGTG
    GAGACACTGA TCCAGCACTC AGACTGGTTC TTCAGTGACG AAGAGGACAA GGGAGAGAGA
    ACCCCTGTGG GCGACAAGGA GCCTCAGGCA GTGCCCAACA TTGAGTACCT CCTGCCCAAC
    ATTGGCAGGA CAGTGCCCCC TGGCGACCCG GGGTCAGATT CTACCACCTG TAGTTCAGCC
    AAGTCCAAGG GTTCGTGGGC CCCCAAGAAG GAGCCGTACG CCCGGGAGAT GCTGGCGATC
    TCCTTCATCT CGGCCGTCAA CCGCAAGCGC AAGAAGCGGC GGGAGGCGCG GGGGCTGGGC
    AGCAGCACCG ACGACGACTC GGAGCAGGAG GCGCACAAGC CTGGGGCGGG GGCCACAGCG
    CCGGGGACTC AGGAGCGGCC GCAGGGGCCG CTGCCTGGCG CCGTCGCCCC CGAGGCCCCC
    GGACGCCTCA GTCCCCCGGC GGCGCCGGAG GAGCGGCCGG CCGCGGACAC GCGCTCCATT
    GTGTCGGGCT ACTCCACCCT GTCCACCATG GACCGCAGCG TGTGCTCGGG CGCTAGCGGT
    CGGCGGGCAG GGGCGGGGGA TGAGGCGGAC GACGAGCGTA GCGAGCTGAG CCACGTGGAG
    ACGGACACTG AGGGCGCGGC GGGCGCGGGG CCTGGGGGGC GCCTGACACG CCGGCCGTCC
    TTCAGCTCGC ACCACCTCAT GCCCTGCGAC ACTCTGGCGC GCCGCCGCCT GGCCCGGGGC
    CGCCCAGACG GCGAGGGCGC GGGCCGGGGC GGTCCCCGCG CCCCGGAGCC GCCCGGCTCG
    GCGTCGTCCA GCAGCCAGGA GTCGCTGCGG CCCCCGGCGG CGGCGCTGGC CTCCCGGCCC
    TCGCGCATGG AGGCGCTGCG TCTAAGGCTC CGCGGCACGG CGGACGACAT GCTCGCCGTG
    CGCCTGCGGC GGCCGCTGTC GCCCGAGACC CGGCGGCGCC GGAGCAGCTG GCGCCGCCAC
    ACCGTGGTGG TGCAGAGCCC GCTGACTGAC CTCAACTTCA ACGAGTGGAA GGAGCTGGGC
    GGAGGGGGCC CCCCGGAGCC TGCGGGCGCG CGGGCGCACA GTGACAACAA GGACTCCGGA
    CTCAGCAGCC TGGAGTCCAC CAAGGCGCGG GCCCCGTCGT CCGCTGCCTC GCAGCCGCCC
    GCGCCCGGGG ACACGGGGTC CCTGCAGAGC CAGCCCCCGC GCCGCTCGGC CGCCTCCCGC
    CTGCATCAGT GTCTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011523377.1
    CDS230..4087
    Translation

    Target ORF information:

    RefSeq Version XM_011525075.2
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011525075.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGTGCCTG AGCCCACCTC AGCACTGCCC AGTGACCCCC GGAGTCCTGC TGCCTGGAGT 
    GACCCGGGGC TCCGTGTGCC ACCTGCTGCC CGTGCCCACC TGGACAACTC TTCCTTGGGG
    ATGAGCCAGC CCCGCCCCAG CCCTGGTGCC TTCCCCCACC TCTCCTCGGA GCCCCGGACG
    CCCCGTGCCT TCCCAGAGCC TGGCAGCCGG GTGCCCCCCA GCAGACTGGA GTGCCAGCAG
    GCCTTGTCAC ACTGGCTGTC AAACCAGGTA CCCCGCCGGG CGGGGGAGAG ACGGTGCCCA
    GCCATGGCCC CCCGGGCCCG CAGCGCCTCC CAGGACCGGT TGGAGGAGGT GGCTGCCCCC
    CGCCCGTGGC CCTGCTCCAC CTCCCAGGAT GCTTTGAGCC AGCTGGGCCA GGAGGGCTGG
    CACCGAGCTC GCTCAGATGA CTACTTGAGC CGGGCCACCC GTTCTGCCGA GGCACTGGGG
    CCAGGGGCAC TGGTGTCACC CCGCTTTGAG CGGTGTGGCT GGGCTTCCCA GCGTTCGTCT
    GCCCGCACCC CCGCCTGCCC AACTCGGGAC CTGCCAGGGC CCCAGGCCCC ACCCCCGTCT
    GGCCTGCAGG GCCTGGATGA CCTCGGGTAC ATCGGCTACC GGAGCTACAG CCCATCATTC
    CAGCGCCGGA CCGGCCTCCT CCATGCGCTC TCCTTCCGGG ACTCACCCTT TGGGGGGCTG
    CCTACCTTCA ACCTGGCCCA GTCCCCTGCG TCATTCCCAC CAGAGGCCTC CGAGCCACCC
    AGGGTTGTAC GGCCGGAACC CAGCACCCGG GCCCTGGAGC CTCCTGCGGA GGATCGCGGC
    GATGAGGTGG TCCTGAGGCA GAAGCCCCCG ACGGGCCGCA AGGTTCAGCT GACCCCCGCA
    AGACAGATGA ACCTTGGATT TGGTGACGAG TCCCCAGAGC CAGAGGCCAG TGGGCGAGGG
    GAACGCCTGG GCAGGAAGGT GGCCCCTTTG GCCACCACCG AAGACTCTCT GGCTTCCATC
    CCCTTTATTG ATGAGCCCAC CAGCCCCAGC ATTGACCTCC AAGCCAAGCA CGTCCCTGCC
    TCTGCTGTGG TCTCCAGTGC CATGAACTCA GCCCCTGTCC TGGGCACCAG CCCATCTTCC
    CCGACCTTCA CTTTCACCCT CGGACGCCAT TACTCGCAGG ACTGCAGCAG CATCAAGGCT
    GGCCGCCGCT CCTCCTACCT GCTGGCCATC ACCACGGAGC GCTCCAAGTC CTGCGATGAT
    GGACTCAACA CCTTCCGCGA CGAGGGCCGG GTTCTGCGGC GCCTGCCAAA CCGCATACCC
    AGCCTGCGGA TGCTCCGGAG CTTCTTCACC GACGGGTCCT TGGATAGCTG GGGCACCTCT
    GAAGATGCTG ACGCTCCTTC TAAGCGACAC TCAACCTCTG ACCTCTCAGA TGCGACCTTC
    AGCGATATCA GGAGAGAAGG CTGGTTGTAT TATAAGCAGA TTCTCACCAA GAAGGGGAAG
    AAAGCGGGCA GCGGCCTGCG CCAGTGGAAG CGGGTGTACG CCGCGCTGCG GGCGCGCTCG
    CTCTCGCTGA GCAAGGAGCG GCGGGAGCCC GGGCCGGCGG CGGCGGGGGC TGCGGCGGCC
    GGCGCAGGTG AGGACGAGGC GGCGCCCGTC TGCATCGGCT CCTGCCTCGT GGACATCTCC
    TACAGCGAGA CCAAGAGGAG GCACGTGTTC CGGCTGACCA CCGCTGACTT CTGTGAATAT
    CTCTTTCAGG CTGAGGACCG GGATGACATG CTGGGCTGGA TCAGAGCGAT CCGGGAGAAC
    AGCAGGGCCG AGGGCGAGGA CCCCGGCTGT GCCAACCAAG CTCTGATCAG CAAGAAGCTT
    AACGATTATC GCAAAGTGAG CCATAGCTCT GGGCCCAAAG CTGATTCCTC CCCCAAAGGC
    TCTCGCGGCC TGGGGGGCCT CAAGTCTGAG TTCCTCAAGC AGAGTGCGGC ACGTGGCCTC
    AGGACTCAGG ACCTGCCCGC AGGGAGCAAG GATGACAGTG CTGCAGCCCC CAAAACCCCC
    TGGGGCATCA ACATCATCAA GAAAAATAAG AAGGCCGCTC CGAGGGCGTT TGGGGTCAGG
    CTGGAGGAGT GCCAGCCAGC CACGGAGAAC CAGCGCGTCC CCTTAATCGT GGCTGCATGC
    TGTCGCATTG TGGAGGCACG AGGGCTGGAG TCCACAGGCA TTTACCGAGT GCCCGGCAAC
    AATGCAGTGG TGTCCAGCCT ACAGGAGCAG CTCAACCGCG GGCCTGGTGA CATCAACCTG
    CAGGATGAGC GCTGGCAAGA CCTCAATGTG ATCAGCAGCC TGCTCAAGTC CTTCTTCCGA
    AAGCTGCCCG AGCCTCTTTT CACTGATGAC AAATACAACG ACTTCATCGA GGCCAACCGC
    ATTGAGGACG CGCGGGAGCG AATGAGGACG CTGCGGAAGC TGATCCGGGA TCTCCCAGGA
    CACTACTATG AAACGCTCAA ATTCCTTGTG GGCCATCTCA AGACCATCGC TGACCACTCT
    GAGAAAAACA AGATGGAACC CCGGAACCTG GCCCTGGTCT TTGGGCCGAC ACTGGTGAGG
    ACGTCTGAGG ACAACATGAC AGACATGGTG ACCCACATGC CTGACCGCTA CAAGATCGTG
    GAGACACTGA TCCAGCACTC AGACTGGTTC TTCAGTGACG AAGAGGACAA GGGAGAGAGA
    ACCCCTGTGG GCGACAAGGA GCCTCAGGCA GTGCCCAACA TTGAGTACCT CCTGCCCAAC
    ATTGGCAGGA CAGTGCCCCC TGGCGACCCG GGGTCAGATT CTACCACCTG TAGTTCAGCC
    AAGTCCAAGG GTTCGTGGGC CCCCAAGAAG GAGCCGTACG CCCGGGAGAT GCTGGCGATC
    TCCTTCATCT CGGCCGTCAA CCGCAAGCGC AAGAAGCGGC GGGAGGCGCG GGGGCTGGGC
    AGCAGCACCG ACGACGACTC GGAGCAGGAG GCGCACAAGC CTGGGGCGGG GGCCACAGCG
    CCGGGGACTC AGGAGCGGCC GCAGGGGCCG CTGCCTGGCG CCGTCGCCCC CGAGGCCCCC
    GGACGCCTCA GTCCCCCGGC GGCGCCGGAG GAGCGGCCGG CCGCGGACAC GCGCTCCATT
    GTGTCGGGCT ACTCCACCCT GTCCACCATG GACCGCAGCG TGTGCTCGGG CGCTAGCGGT
    CGGCGGGCAG GGGCGGGGGA TGAGGCGGAC GACGAGCGTA GCGAGCTGAG CCACGTGGAG
    ACGGACACTG AGGGCGCGGC GGGCGCGGGG CCTGGGGGGC GCCTGACACG CCGGCCGTCC
    TTCAGCTCGC ACCACCTCAT GCCCTGCGAC ACTCTGGCGC GCCGCCGCCT GGCCCGGGGC
    CGCCCAGACG GCGAGGGCGC GGGCCGGGGC GGTCCCCGCG CCCCGGAGCC GCCCGGCTCG
    GCGTCGTCCA GCAGCCAGGA GTCGCTGCGG CCCCCGGCGG CGGCGCTGGC CTCCCGGCCC
    TCGCGCATGG AGGCGCTGCG TCTAAGGCTC CGCGGCACGG CGGACGACAT GCTCGCCGTG
    CGCCTGCGGC GGCCGCTGTC GCCCGAGACC CGGCGGCGCC GGAGCAGCTG GCGCCGCCAC
    ACCGTGGTGG TGCAGAGCCC GCTGACTGAC CTCAACTTCA ACGAGTGGAA GGAGCTGGGC
    GGAGGGGGCC CCCCGGAGCC TGCGGGCGCG CGGGCGCACA GTGACAACAA GGACTCCGGA
    CTCAGCAGCC TGGAGTCCAC CAAGGCGCGG GCCCCGTCGT CCGCTGCCTC GCAGCCGCCC
    GCGCCCGGGG ACACGGGGTC CCTGCAGAGC CAGCCCCCGC GCCGCTCGGC CGCCTCCCGC
    CTGCATCAGT GTCTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu70742
    Clone ID Related Accession (Same CDS sequence) XM_011525076.2
    Accession Version XM_011525076.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3480bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein 23 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011525076.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGAATGGAG TCGCCTTCTG CCTGGTCGGG ATCCCGCCCC GCCCGGAGCC CCGGCCCCCA 
    CAGCTGCCAC TGGGCCCAAG AGATGGGTGC TCTCCTAGGC GCCCCTTCCC CTGGCAGGGG
    CCGAGGACGC TGCTGCTGTA CAAAAGTCCC CAGGACGGCT TTGGCTTCAC TCTGCGCCAC
    TTCATCGTGT ACCCACCCGA GTCGGCCGTG CACTGCAGCC TGAAGGAGGA AGAGAATGGA
    GGCCGTGGAG GAGGACCCTC CCCCCGGTAC CGCCTGGAGC CCATGGACAC CATCTTTGTC
    AAGAATGTGA AGGAAGACGG CCCTGCCCAT AGGGCGGGGC TTCGCACAGG AGACCGGCTG
    GTAAAGGTGA ATGGGGAAAG CGTCATTGGG AAGACCTACT CTCAGGTCAT AGCTCTGATC
    CAGAATAGTG ATGACACTCT GGAGCTGTCT ATCATGCCCA AGGACGAGGA CATCCTCCAG
    CTGGCCTACT CCCAGGATGC CTACCTGAAA GGGAACGAGC CGTATTCTGG AGAGGCCCGC
    AGCATCCCAG AGCCACCCCC GATCTGCTAC CCCCGCAAGA CCTACGCCCC TCCTGCCCGG
    GCCTCCACCA GGGCCACTAT GGTGCCTGAG CCCACCTCAG CACTGCCCAG TGACCCCCGG
    AGTCCTGCTG CCTGGAGTGA CCCGGGGCTC CGTGTGCCAC CTGCTGCCCG TGCCCACCTG
    GACAACTCTT CCTTGGGGAT GAGCCAGCCC CGCCCCAGCC CTGGTGCCTT CCCCCACCTC
    TCCTCGGAGC CCCGGACGCC CCGTGCCTTC CCAGAGCCTG GCAGCCGGGT GCCCCCCAGC
    AGACTGGAGT GCCAGCAGGC CTTGTCACAC TGGCTGTCAA ACCAGGTACC CCGCCGGGCG
    GGGGAGAGAC GGTGCCCAGC CATGGCCCCC CGGGCCCGCA GCGCCTCCCA GGACCGGTTG
    GAGGAGGTGG CTGCCCCCCG CCCGTGGCCC TGCTCCACCT CCCAGGATGC TTTGAGCCAG
    CTGGGCCAGG AGGGCTGGCA CCGAGCTCGC TCAGATGACT ACTTGAGCCG GGCCACCCGT
    TCTGCCGAGG CACTGGGGCC AGGGGCACTG GTGTCACCCC GCTTTGAGCG GTGTGGCTGG
    GCTTCCCAGC GTTCGTCTGC CCGCACCCCC GCCTGCCCAA CTCGGGACCT GCCAGGGCCC
    CAGGCCCCAC CCCCGTCTGG CCTGCAGGGC CTGGATGACC TCGGGTACAT CGGCTACCGG
    AGCTACAGCC CATCATTCCA GCGCCGGACC GGCCTCCTCC ATGCGCTCTC CTTCCGGGAC
    TCACCCTTTG GGGGGCTGCC TACCTTCAAC CTGGCCCAGT CCCCTGCGTC ATTCCCACCA
    GAGGCCTCCG AGCCACCCAG GGTTGTACGG CCGGAACCCA GCACCCGGGC CCTGGAGCCT
    CCTGCGGAGG ATCGCGGCGA TGAGGTGGTC CTGAGGCAGA AGCCCCCGAC GGGCCGCAAG
    GTTCAGCTGA CCCCCGCAAG ACAGATGAAC CTTGGATTTG GTGACGAGTC CCCAGAGCCA
    GAGGCCAGTG GGCGAGGGGA ACGCCTGGGC AGGAAGGTGG CCCCTTTGGC CACCACCGAA
    GACTCTCTGG CTTCCATCCC CTTTATTGAT GAGCCCACCA GCCCCAGCAT TGACCTCCAA
    GCCAAGCACG TCCCTGCCTC TGCTGTGGTC TCCAGTGCCA TGAACTCAGC CCCTGTCCTG
    GGCACCAGCC CATCTTCCCC GACCTTCACT TTCACCCTCG GACGCCATTA CTCGCAGGAC
    TGCAGCAGCA TCAAGGCTGG CCGCCGCTCC TCCTACCTGC TGGCCATCAC CACGGAGCGC
    TCCAAGTCCT GCGATGATGG ACTCAACACC TTCCGCGACG AGGGCCGGGT TCTGCGGCGC
    CTGCCAAACC GCATACCCAG CCTGCGGATG CTCCGGAGCT TCTTCACCGA CGGGTCCTTG
    GATAGCTGGG GCACCTCTGA AGATGCTGAC GCTCCTTCTA AGCGACACTC AACCTCTGAC
    CTCTCAGATG CGACCTTCAG CGATATCAGG AGAGAAGGCT GGTTGTATTA TAAGCAGATT
    CTCACCAAGA AGGGGAAGAA AGCGGGCAGC GGCCTGCGCC AGTGGAAGCG GGTGTACGCC
    GCGCTGCGGG CGCGCTCGCT CTCGCTGAGC AAGGAGCGGC GGGAGCCCGG GCCGGCGGCG
    GCGGGGGCTG CGGCGGCCGG CGCAGGTGAG GACGAGGCGG CGCCCGTCTG CATCGGCTCC
    TGCCTCGTGG ACATCTCCTA CAGCGAGACC AAGAGGAGGC ACGTGTTCCG GCTGACCACC
    GCTGACTTCT GTGAATATCT CTTTCAGGCT GAGGACCGGG ATGACATGCT GGGCTGGATC
    AGAGCGATCC GGGAGAACAG CAGGGCCGAG GGCGAGGACC CCGGCTGTGC CAACCAAGCT
    CTGATCAGCA AGAAGCTTAA CGATTATCGC AAAGTGAGCC ATAGCTCTGG GCCCAAAGCT
    GATTCCTCCC CCAAAGGCTC TCGCGGCCTG GGGGGCCTCA AGTCTGAGTT CCTCAAGCAG
    AGTGCGGCAC GTGGCCTCAG GACTCAGGAC CTGCCCGCAG GGAGCAAGGA TGACAGTGCT
    GCAGCCCCCA AAACCCCCTG GGGCATCAAC ATCATCAAGA AAAATAAGAA GGCCGCTCCG
    AGGGCGTTTG GGGTCAGGCT GGAGGAGTGC CAGCCAGCCA CGGAGAACCA GCGCGTCCCC
    TTAATCGTGG CTGCATGCTG TCGCATTGTG GAGGCACGAG GGCTGGAGTC CACAGGCATT
    TACCGAGTGC CCGGCAACAA TGCAGTGGTG TCCAGCCTAC AGGAGCAGCT CAACCGCGGG
    CCTGGTGACA TCAACCTGCA GGATGAGCGC TGGCAAGACC TCAATGTGAT CAGCAGCCTG
    CTCAAGTCCT TCTTCCGAAA GCTGCCCGAG CCTCTTTTCA CTGATGACAA ATACAACGAC
    TTCATCGAGG CCAACCGCAT TGAGGACGCG CGGGAGCGAA TGAGGACGCT GCGGAAGCTG
    ATCCGGGATC TCCCAGGACA CTACTATGAA ACGCTCAAAT TCCTTGTGGG CCATCTCAAG
    ACCATCGCTG ACCACTCTGA GAAAAACAAG ATGGAACCCC GGAACCTGGC CCTGGTCTTT
    GGGCCGACAC TGGTGAGGAC GTCTGAGGAC AACATGACAG ACATGGTGAC CCACATGCCT
    GACCGCTACA AGATCGTGGA GACACTGATC CAGCACTCAG ACTGGTTCTT CAGTGACGAA
    GAGGACAAGG GAGAGAGAAC CCCTGTGGGC GACAAGGAGC CTCAGGCAGT GCCCAACATT
    GAGTACCTCC TGCCCAACAT TGGCAGGACA GTGCCCCCTG GCGACCCGGG GTCAGATTCT
    ACCACCTGTA GTTCAGCCAA GTCCAAGTTG AAGAAACAGA GGCCAGAAGA GCTTCTGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011523378.1
    CDS37..3516
    Translation

    Target ORF information:

    RefSeq Version XM_011525076.2
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011525076.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGAATGGAG TCGCCTTCTG CCTGGTCGGG ATCCCGCCCC GCCCGGAGCC CCGGCCCCCA 
    CAGCTGCCAC TGGGCCCAAG AGATGGGTGC TCTCCTAGGC GCCCCTTCCC CTGGCAGGGG
    CCGAGGACGC TGCTGCTGTA CAAAAGTCCC CAGGACGGCT TTGGCTTCAC TCTGCGCCAC
    TTCATCGTGT ACCCACCCGA GTCGGCCGTG CACTGCAGCC TGAAGGAGGA AGAGAATGGA
    GGCCGTGGAG GAGGACCCTC CCCCCGGTAC CGCCTGGAGC CCATGGACAC CATCTTTGTC
    AAGAATGTGA AGGAAGACGG CCCTGCCCAT AGGGCGGGGC TTCGCACAGG AGACCGGCTG
    GTAAAGGTGA ATGGGGAAAG CGTCATTGGG AAGACCTACT CTCAGGTCAT AGCTCTGATC
    CAGAATAGTG ATGACACTCT GGAGCTGTCT ATCATGCCCA AGGACGAGGA CATCCTCCAG
    CTGGCCTACT CCCAGGATGC CTACCTGAAA GGGAACGAGC CGTATTCTGG AGAGGCCCGC
    AGCATCCCAG AGCCACCCCC GATCTGCTAC CCCCGCAAGA CCTACGCCCC TCCTGCCCGG
    GCCTCCACCA GGGCCACTAT GGTGCCTGAG CCCACCTCAG CACTGCCCAG TGACCCCCGG
    AGTCCTGCTG CCTGGAGTGA CCCGGGGCTC CGTGTGCCAC CTGCTGCCCG TGCCCACCTG
    GACAACTCTT CCTTGGGGAT GAGCCAGCCC CGCCCCAGCC CTGGTGCCTT CCCCCACCTC
    TCCTCGGAGC CCCGGACGCC CCGTGCCTTC CCAGAGCCTG GCAGCCGGGT GCCCCCCAGC
    AGACTGGAGT GCCAGCAGGC CTTGTCACAC TGGCTGTCAA ACCAGGTACC CCGCCGGGCG
    GGGGAGAGAC GGTGCCCAGC CATGGCCCCC CGGGCCCGCA GCGCCTCCCA GGACCGGTTG
    GAGGAGGTGG CTGCCCCCCG CCCGTGGCCC TGCTCCACCT CCCAGGATGC TTTGAGCCAG
    CTGGGCCAGG AGGGCTGGCA CCGAGCTCGC TCAGATGACT ACTTGAGCCG GGCCACCCGT
    TCTGCCGAGG CACTGGGGCC AGGGGCACTG GTGTCACCCC GCTTTGAGCG GTGTGGCTGG
    GCTTCCCAGC GTTCGTCTGC CCGCACCCCC GCCTGCCCAA CTCGGGACCT GCCAGGGCCC
    CAGGCCCCAC CCCCGTCTGG CCTGCAGGGC CTGGATGACC TCGGGTACAT CGGCTACCGG
    AGCTACAGCC CATCATTCCA GCGCCGGACC GGCCTCCTCC ATGCGCTCTC CTTCCGGGAC
    TCACCCTTTG GGGGGCTGCC TACCTTCAAC CTGGCCCAGT CCCCTGCGTC ATTCCCACCA
    GAGGCCTCCG AGCCACCCAG GGTTGTACGG CCGGAACCCA GCACCCGGGC CCTGGAGCCT
    CCTGCGGAGG ATCGCGGCGA TGAGGTGGTC CTGAGGCAGA AGCCCCCGAC GGGCCGCAAG
    GTTCAGCTGA CCCCCGCAAG ACAGATGAAC CTTGGATTTG GTGACGAGTC CCCAGAGCCA
    GAGGCCAGTG GGCGAGGGGA ACGCCTGGGC AGGAAGGTGG CCCCTTTGGC CACCACCGAA
    GACTCTCTGG CTTCCATCCC CTTTATTGAT GAGCCCACCA GCCCCAGCAT TGACCTCCAA
    GCCAAGCACG TCCCTGCCTC TGCTGTGGTC TCCAGTGCCA TGAACTCAGC CCCTGTCCTG
    GGCACCAGCC CATCTTCCCC GACCTTCACT TTCACCCTCG GACGCCATTA CTCGCAGGAC
    TGCAGCAGCA TCAAGGCTGG CCGCCGCTCC TCCTACCTGC TGGCCATCAC CACGGAGCGC
    TCCAAGTCCT GCGATGATGG ACTCAACACC TTCCGCGACG AGGGCCGGGT TCTGCGGCGC
    CTGCCAAACC GCATACCCAG CCTGCGGATG CTCCGGAGCT TCTTCACCGA CGGGTCCTTG
    GATAGCTGGG GCACCTCTGA AGATGCTGAC GCTCCTTCTA AGCGACACTC AACCTCTGAC
    CTCTCAGATG CGACCTTCAG CGATATCAGG AGAGAAGGCT GGTTGTATTA TAAGCAGATT
    CTCACCAAGA AGGGGAAGAA AGCGGGCAGC GGCCTGCGCC AGTGGAAGCG GGTGTACGCC
    GCGCTGCGGG CGCGCTCGCT CTCGCTGAGC AAGGAGCGGC GGGAGCCCGG GCCGGCGGCG
    GCGGGGGCTG CGGCGGCCGG CGCAGGTGAG GACGAGGCGG CGCCCGTCTG CATCGGCTCC
    TGCCTCGTGG ACATCTCCTA CAGCGAGACC AAGAGGAGGC ACGTGTTCCG GCTGACCACC
    GCTGACTTCT GTGAATATCT CTTTCAGGCT GAGGACCGGG ATGACATGCT GGGCTGGATC
    AGAGCGATCC GGGAGAACAG CAGGGCCGAG GGCGAGGACC CCGGCTGTGC CAACCAAGCT
    CTGATCAGCA AGAAGCTTAA CGATTATCGC AAAGTGAGCC ATAGCTCTGG GCCCAAAGCT
    GATTCCTCCC CCAAAGGCTC TCGCGGCCTG GGGGGCCTCA AGTCTGAGTT CCTCAAGCAG
    AGTGCGGCAC GTGGCCTCAG GACTCAGGAC CTGCCCGCAG GGAGCAAGGA TGACAGTGCT
    GCAGCCCCCA AAACCCCCTG GGGCATCAAC ATCATCAAGA AAAATAAGAA GGCCGCTCCG
    AGGGCGTTTG GGGTCAGGCT GGAGGAGTGC CAGCCAGCCA CGGAGAACCA GCGCGTCCCC
    TTAATCGTGG CTGCATGCTG TCGCATTGTG GAGGCACGAG GGCTGGAGTC CACAGGCATT
    TACCGAGTGC CCGGCAACAA TGCAGTGGTG TCCAGCCTAC AGGAGCAGCT CAACCGCGGG
    CCTGGTGACA TCAACCTGCA GGATGAGCGC TGGCAAGACC TCAATGTGAT CAGCAGCCTG
    CTCAAGTCCT TCTTCCGAAA GCTGCCCGAG CCTCTTTTCA CTGATGACAA ATACAACGAC
    TTCATCGAGG CCAACCGCAT TGAGGACGCG CGGGAGCGAA TGAGGACGCT GCGGAAGCTG
    ATCCGGGATC TCCCAGGACA CTACTATGAA ACGCTCAAAT TCCTTGTGGG CCATCTCAAG
    ACCATCGCTG ACCACTCTGA GAAAAACAAG ATGGAACCCC GGAACCTGGC CCTGGTCTTT
    GGGCCGACAC TGGTGAGGAC GTCTGAGGAC AACATGACAG ACATGGTGAC CCACATGCCT
    GACCGCTACA AGATCGTGGA GACACTGATC CAGCACTCAG ACTGGTTCTT CAGTGACGAA
    GAGGACAAGG GAGAGAGAAC CCCTGTGGGC GACAAGGAGC CTCAGGCAGT GCCCAACATT
    GAGTACCTCC TGCCCAACAT TGGCAGGACA GTGCCCCCTG GCGACCCGGG GTCAGATTCT
    ACCACCTGTA GTTCAGCCAA GTCCAAGTTG AAGAAACAGA GGCCAGAAGA GCTTCTGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu70743
    Clone ID Related Accession (Same CDS sequence) XM_011525077.2
    Accession Version XM_011525077.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3354bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein 23 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011525077.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGAATGGAG TCGCCTTCTG CCTGGTCGGG ATCCCGCCCC GCCCGGAGCC CCGGCCCCCA 
    CAGCTGCCAC TGGGCCCAAG AGATGGGTGC TCTCCTAGGC GCCCCTTCCC CTGGCAGGGG
    CCGAGGACGC TGCTGCTGTA CAAAAGTCCC CAGGACGGCT TTGGCTTCAC TCTGCGCCAC
    TTCATCGTGT ACCCACCCGA GTCGGCCGTG CACTGCAGCC TGAAGGAGGA AGAGAATGGA
    GGCCGTGGAG GAGGACCCTC CCCCCGGTAC CGCCTGGAGC CCATGGACAC CATCTTTGTC
    AAGAATGTGA AGGAAGACGG CCCTGCCCAT AGGGCGGGGC TTCGCACAGG AGACCGGCTG
    GTAAAGGTGA ATGGGGAAAG CGTCATTGGG AAGACCTACT CTCAGGTCAT AGCTCTGATC
    CAGAATAGTG ATGACACTCT GGAGCTGTCT ATCATGCCCA AGGACGAGGA CATCCTCCAG
    CTGGCCTACT CCCAGGATGC CTACCTGAAA GGGAACGAGC CGTATTCTGG AGAGGCCCGC
    AGCATCCCAG AGCCACCCCC GATCTGCTAC CCCCGCAAGA CCTACGCCCC TCCTGCCCGG
    GCCTCCACCA GGGCCACTAT GGTGCCTGAG CCCACCTCAG CACTGCCCAG TGACCCCCGG
    AGTCCTGCTG CCTGGAGTGA CCCGGGGCTC CGTGTGCCAC CTGCTGCCCG TGCCCACCTG
    GACAACTCTT CCTTGGGGAT GAGCCAGCCC CGCCCCAGCC CTGGTGCCTT CCCCCACCTC
    TCCTCGGAGC CCCGGACGCC CCGTGCCTTC CCAGAGCCTG GCAGCCGGGT GCCCCCCAGC
    AGACTGGAGT GCCAGCAGGC CTTGTCACAC TGGCTGTCAA ACCAGGTACC CCGCCGGGCG
    GGGGAGAGAC GGTGCCCAGC CATGGCCCCC CGGGCCCGCA GCGCCTCCCA GGACCGGTTG
    GAGGAGGTGG CTGCCCCCCG CCCGTGGCCC TGCTCCACCT CCCAGGATGC TTTGAGCCAG
    CTGGGCCAGG AGGGCTGGCA CCGAGCTCGC TCAGATGACT ACTTGAGCCG GGCCACCCGT
    TCTGCCGAGG CACTGGGGCC AGGGGCACTG GTGTCACCCC GCTTTGAGCG GTGTGGCTGG
    GCTTCCCAGC GTTCGTCTGC CCGCACCCCC GCCTGCCCAA CTCGGGACCT GCCAGGGCCC
    CAGGCCCCAC CCCCGTCTGG CCTGCAGGGC CTGGATGACC TCGGGTACAT CGGCTACCGG
    AGCTACAGCC CATCATTCCA GCGCCGGACC GGCCTCCTCC ATGCGCTCTC CTTCCGGGAC
    TCACCCTTTG GGGGGCTGCC TACCTTCAAC CTGGCCCAGT CCCCTGCGTC ATTCCCACCA
    GAGGCCTCCG AGCCACCCAG GGTTGTACGG CCGGAACCCA GCACCCGGGC CCTGGAGCCT
    CCTGCGGAGG ATCGCGGCGA TGAGGTGGTC CTGAGGCAGA AGCCCCCGAC GGGCCGCAAG
    GTTCAGCTGA CCCCCGCAAG ACAGATGAAC CTTGGATTTG GTGACGAGTC CCCAGAGCCA
    GAGGCCAGTG GGCGAGGGGA ACGCCTGGGC AGGAAGGTGG CCCCTTTGGC CACCACCGAA
    GACTCTCTGG CTTCCATCCC CTTTATTGAT GAGCCCACCA GCCCCAGCAT TGACCTCCAA
    GCCAAGCACG TCCCTGCCTC TGCTGTGGTC TCCAGTGCCA TGAACTCAGC CCCTGTCCTG
    GGCACCAGCC CATCTTCCCC GACCTTCACT TTCACCCTCG GACGCCATTA CTCGCAGGAC
    TGCAGCAGCA TCAAGGCTGG CCGCCGCTCC TCCTACCTGC TGGCCATCAC CACGGAGCGC
    TCCAAGTCCT GCGATGATGG ACTCAACACC TTCCGCGACG AGGGCCGGGT TCTGCGGCGC
    CTGCCAAACC GCATACCCAG CCTGCGGATG CTCCGGAGCT TCTTCACCGA CGGGTCCTTG
    GATAGCTGGG GCACCTCTGA AGATGCTGAC GCTCCTTCTA AGCGACACTC AACCTCTGAC
    CTCTCAGATG CGACCTTCAG CGATATCAGG AGAGAAGGCT GGTTGTATTA TAAGCAGATT
    CTCACCAAGA AGGGGAAGAA AGCGGGCAGC GGCCTGCGCC AGTGGAAGCG GGTGTACGCC
    GCGCTGCGGG CGCGCTCGCT CTCGCTGAGC AAGGAGCGGC GGGAGCCCGG GCCGGCGGCG
    GCGGGGGCTG CGGCGGCCGG CGCAGGTGAG GACGAGGCGG CGCCCGTCTG CATCGGCTCC
    TGCCTCGTGG ACATCTCCTA CAGCGAGACC AAGAGGAGGC ACGTGTTCCG GCTGACCACC
    GCTGACTTCT GTGAATATCT CTTTCAGGCT GAGGACCGGG ATGACATGCT GGGCTGGATC
    AGAGCGATCC GGGAGAACAG CAGGGCCGAG GGCGAGGACC CCGGCTGTGC CAACCAAGCT
    CTGATCAGCA AGAAGCTTAA CGATTATCGC AAAGTGAGCC ATAGCTCTGG GCCCAAAGCT
    GATTCCTCCC CCAAAGGCTC TCGCGGCCTG GGGGGCCTCA AGTCTGAGTT CCTCAAGCAG
    AGTGCGGCAC GTGGCCTCAG GACTCAGGAC CTGCCCGCAG GGAGCAAGGA TGACAGTGCT
    GCAGCCCCCA AAACCCCCTG GGGCATCAAC ATCATCAAGA AAAATAAGAA GGCCGCTCCG
    AGGGCGTTTG GGGTCAGGCT GGAGGAGTGC CAGCCAGCCA CGGAGAACCA GCGCGTCCCC
    TTAATCGTGG CTGCATGCTG TCGCATTGTG GAGGCACGAG GGCTGGAGTC CACAGGCATT
    TACCGAGTGC CCGGCAACAA TGCAGTGGTG TCCAGCCTAC AGGAGCAGCT CAACCGCGGG
    CCTGGTGACA TCAACCTGCA GGATGAGCGC TGGCAAGACC TCAATGTGAT CAGCAGCCTG
    CTCAAGTCCT TCTTCCGAAA GCTGCCCGAG CCTCTTTTCA CTGATGACAA ATACAACGAC
    TTCATCGAGG CCAACCGCAT TGAGGACGCG CGGGAGCGAA TGAGGACGCT GCGGAAGCTG
    ATCCGGGATC TCCCAGGACA CTACTATGAA ACGCTCAAAT TCCTTGTGGG CCATCTCAAG
    ACCATCGCTG ACCACTCTGA GAAAAACAAG ATGGAACCCC GGAACCTGGC CCTGGTCTTT
    GGGCCGACAC TGGTGAGGAC GTCTGAGGAC AACATGACAG ACATGGTGAC CCACATGCCT
    GACCGCTACA AGATCGTGGA GACACTGATC CAGCACTCAG ACTGGTTCTT CAGTGACGAA
    GAGGACAAGG GAGAGAGAAT TCTACCACCT GTAGTTCAGC CAAGTCCAAG TTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011523379.1
    CDS37..3390
    Translation

    Target ORF information:

    RefSeq Version XM_011525077.2
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011525077.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGAATGGAG TCGCCTTCTG CCTGGTCGGG ATCCCGCCCC GCCCGGAGCC CCGGCCCCCA 
    CAGCTGCCAC TGGGCCCAAG AGATGGGTGC TCTCCTAGGC GCCCCTTCCC CTGGCAGGGG
    CCGAGGACGC TGCTGCTGTA CAAAAGTCCC CAGGACGGCT TTGGCTTCAC TCTGCGCCAC
    TTCATCGTGT ACCCACCCGA GTCGGCCGTG CACTGCAGCC TGAAGGAGGA AGAGAATGGA
    GGCCGTGGAG GAGGACCCTC CCCCCGGTAC CGCCTGGAGC CCATGGACAC CATCTTTGTC
    AAGAATGTGA AGGAAGACGG CCCTGCCCAT AGGGCGGGGC TTCGCACAGG AGACCGGCTG
    GTAAAGGTGA ATGGGGAAAG CGTCATTGGG AAGACCTACT CTCAGGTCAT AGCTCTGATC
    CAGAATAGTG ATGACACTCT GGAGCTGTCT ATCATGCCCA AGGACGAGGA CATCCTCCAG
    CTGGCCTACT CCCAGGATGC CTACCTGAAA GGGAACGAGC CGTATTCTGG AGAGGCCCGC
    AGCATCCCAG AGCCACCCCC GATCTGCTAC CCCCGCAAGA CCTACGCCCC TCCTGCCCGG
    GCCTCCACCA GGGCCACTAT GGTGCCTGAG CCCACCTCAG CACTGCCCAG TGACCCCCGG
    AGTCCTGCTG CCTGGAGTGA CCCGGGGCTC CGTGTGCCAC CTGCTGCCCG TGCCCACCTG
    GACAACTCTT CCTTGGGGAT GAGCCAGCCC CGCCCCAGCC CTGGTGCCTT CCCCCACCTC
    TCCTCGGAGC CCCGGACGCC CCGTGCCTTC CCAGAGCCTG GCAGCCGGGT GCCCCCCAGC
    AGACTGGAGT GCCAGCAGGC CTTGTCACAC TGGCTGTCAA ACCAGGTACC CCGCCGGGCG
    GGGGAGAGAC GGTGCCCAGC CATGGCCCCC CGGGCCCGCA GCGCCTCCCA GGACCGGTTG
    GAGGAGGTGG CTGCCCCCCG CCCGTGGCCC TGCTCCACCT CCCAGGATGC TTTGAGCCAG
    CTGGGCCAGG AGGGCTGGCA CCGAGCTCGC TCAGATGACT ACTTGAGCCG GGCCACCCGT
    TCTGCCGAGG CACTGGGGCC AGGGGCACTG GTGTCACCCC GCTTTGAGCG GTGTGGCTGG
    GCTTCCCAGC GTTCGTCTGC CCGCACCCCC GCCTGCCCAA CTCGGGACCT GCCAGGGCCC
    CAGGCCCCAC CCCCGTCTGG CCTGCAGGGC CTGGATGACC TCGGGTACAT CGGCTACCGG
    AGCTACAGCC CATCATTCCA GCGCCGGACC GGCCTCCTCC ATGCGCTCTC CTTCCGGGAC
    TCACCCTTTG GGGGGCTGCC TACCTTCAAC CTGGCCCAGT CCCCTGCGTC ATTCCCACCA
    GAGGCCTCCG AGCCACCCAG GGTTGTACGG CCGGAACCCA GCACCCGGGC CCTGGAGCCT
    CCTGCGGAGG ATCGCGGCGA TGAGGTGGTC CTGAGGCAGA AGCCCCCGAC GGGCCGCAAG
    GTTCAGCTGA CCCCCGCAAG ACAGATGAAC CTTGGATTTG GTGACGAGTC CCCAGAGCCA
    GAGGCCAGTG GGCGAGGGGA ACGCCTGGGC AGGAAGGTGG CCCCTTTGGC CACCACCGAA
    GACTCTCTGG CTTCCATCCC CTTTATTGAT GAGCCCACCA GCCCCAGCAT TGACCTCCAA
    GCCAAGCACG TCCCTGCCTC TGCTGTGGTC TCCAGTGCCA TGAACTCAGC CCCTGTCCTG
    GGCACCAGCC CATCTTCCCC GACCTTCACT TTCACCCTCG GACGCCATTA CTCGCAGGAC
    TGCAGCAGCA TCAAGGCTGG CCGCCGCTCC TCCTACCTGC TGGCCATCAC CACGGAGCGC
    TCCAAGTCCT GCGATGATGG ACTCAACACC TTCCGCGACG AGGGCCGGGT TCTGCGGCGC
    CTGCCAAACC GCATACCCAG CCTGCGGATG CTCCGGAGCT TCTTCACCGA CGGGTCCTTG
    GATAGCTGGG GCACCTCTGA AGATGCTGAC GCTCCTTCTA AGCGACACTC AACCTCTGAC
    CTCTCAGATG CGACCTTCAG CGATATCAGG AGAGAAGGCT GGTTGTATTA TAAGCAGATT
    CTCACCAAGA AGGGGAAGAA AGCGGGCAGC GGCCTGCGCC AGTGGAAGCG GGTGTACGCC
    GCGCTGCGGG CGCGCTCGCT CTCGCTGAGC AAGGAGCGGC GGGAGCCCGG GCCGGCGGCG
    GCGGGGGCTG CGGCGGCCGG CGCAGGTGAG GACGAGGCGG CGCCCGTCTG CATCGGCTCC
    TGCCTCGTGG ACATCTCCTA CAGCGAGACC AAGAGGAGGC ACGTGTTCCG GCTGACCACC
    GCTGACTTCT GTGAATATCT CTTTCAGGCT GAGGACCGGG ATGACATGCT GGGCTGGATC
    AGAGCGATCC GGGAGAACAG CAGGGCCGAG GGCGAGGACC CCGGCTGTGC CAACCAAGCT
    CTGATCAGCA AGAAGCTTAA CGATTATCGC AAAGTGAGCC ATAGCTCTGG GCCCAAAGCT
    GATTCCTCCC CCAAAGGCTC TCGCGGCCTG GGGGGCCTCA AGTCTGAGTT CCTCAAGCAG
    AGTGCGGCAC GTGGCCTCAG GACTCAGGAC CTGCCCGCAG GGAGCAAGGA TGACAGTGCT
    GCAGCCCCCA AAACCCCCTG GGGCATCAAC ATCATCAAGA AAAATAAGAA GGCCGCTCCG
    AGGGCGTTTG GGGTCAGGCT GGAGGAGTGC CAGCCAGCCA CGGAGAACCA GCGCGTCCCC
    TTAATCGTGG CTGCATGCTG TCGCATTGTG GAGGCACGAG GGCTGGAGTC CACAGGCATT
    TACCGAGTGC CCGGCAACAA TGCAGTGGTG TCCAGCCTAC AGGAGCAGCT CAACCGCGGG
    CCTGGTGACA TCAACCTGCA GGATGAGCGC TGGCAAGACC TCAATGTGAT CAGCAGCCTG
    CTCAAGTCCT TCTTCCGAAA GCTGCCCGAG CCTCTTTTCA CTGATGACAA ATACAACGAC
    TTCATCGAGG CCAACCGCAT TGAGGACGCG CGGGAGCGAA TGAGGACGCT GCGGAAGCTG
    ATCCGGGATC TCCCAGGACA CTACTATGAA ACGCTCAAAT TCCTTGTGGG CCATCTCAAG
    ACCATCGCTG ACCACTCTGA GAAAAACAAG ATGGAACCCC GGAACCTGGC CCTGGTCTTT
    GGGCCGACAC TGGTGAGGAC GTCTGAGGAC AACATGACAG ACATGGTGAC CCACATGCCT
    GACCGCTACA AGATCGTGGA GACACTGATC CAGCACTCAG ACTGGTTCTT CAGTGACGAA
    GAGGACAAGG GAGAGAGAAT TCTACCACCT GTAGTTCAGC CAAGTCCAAG TTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu87006
    Clone ID Related Accession (Same CDS sequence) XM_017024902.1
    Accession Version XM_017024902.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3360bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product rho GTPase-activating protein 23 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGAATGGAG TCGCCTTCTG CCTGGTCGGG ATCCCGCCCC GCCCGGAGCC CCGGCCCCCA 
    CAGCTGCCAC TGGGCCCAAG AGATGGGTGC TCTCCTAGGC GCCCCTTCCC CTGGCAGGGG
    CCGAGGACGC TGCTGCTGTA CAAAAGTCCC CAGGACGGCT TTGGCTTCAC TCTGCGCCAC
    TTCATCGTGT ACCCACCCGA GTCGGCCGTG CACTGCAGCC TGAAGGAGGA AGAGAATGGA
    GGCCGTGGAG GAGGACCCTC CCCCCGGTAC CGCCTGGAGC CCATGGACAC CATCTTTGTC
    AAGAATGTGA AGGAAGACGG CCCTGCCCAT AGGGCGGGGC TTCGCACAGG AGACCGGCTG
    GTAAAGGTGA ATGGGGAAAG CGTCATTGGG AAGACCTACT CTCAGGTCAT AGCTCTGATC
    CAGAATAGTG ATGACACTCT GGAGCTGTCT ATCATGCCCA AGGACGAGGA CATCCTCCAG
    CTGGCCTACT CCCAGGATGC CTACCTGAAA GGGAACGAGC CGTATTCTGG AGAGGCCCGC
    AGCATCCCAG AGCCACCCCC GATCTGCTAC CCCCGCAAGA CCTACGCCCC TCCTGCCCGG
    GCCTCCACCA GGGCCACTAT GGTGCCTGAG CCCACCTCAG CACTGCCCAG TGACCCCCGG
    AGTCCTGCTG CCTGGAGTGA CCCGGGGCTC CGTGTGCCAC CTGCTGCCCG TGCCCACCTG
    GACAACTCTT CCTTGGGGAT GAGCCAGCCC CGCCCCAGCC CTGGTGCCTT CCCCCACCTC
    TCCTCGGAGC CCCGGACGCC CCGTGCCTTC CCAGAGCCTG GCAGCCGGGT GCCCCCCAGC
    AGACTGGAGT GCCAGCAGGC CTTGTCACAC TGGCTGTCAA ACCAGGTACC CCGCCGGGCG
    GGGGAGAGAC GGTGCCCAGC CATGGCCCCC CGGGCCCGCA GCGCCTCCCA GGACCGGTTG
    GAGGAGGTGG CTGCCCCCCG CCCGTGGCCC TGCTCCACCT CCCAGGATGC TTTGAGCCAG
    CTGGGCCAGG AGGGCTGGCA CCGAGCTCGC TCAGATGACT ACTTGAGCCG GGCCACCCGT
    TCTGCCGAGG CACTGGGGCC AGGGGCACTG GTGTCACCCC GCTTTGAGCG GTGTGGCTGG
    GCTTCCCAGC GTTCGTCTGC CCGCACCCCC GCCTGCCCAA CTCGGGACCT GCCAGGGCCC
    CAGGCCCCAC CCCCGTCTGG CCTGCAGGGC CTGGATGACC TCGGGTACAT CGGCTACCGG
    AGCTACAGCC CATCATTCCA GCGCCGGACC GGCCTCCTCC ATGCGCTCTC CTTCCGGGAC
    TCACCCTTTG GGGGGCTGCC TACCTTCAAC CTGGCCCAGT CCCCTGCGTC ATTCCCACCA
    GAGGCCTCCG AGCCACCCAG GGTTGTACGG CCGGAACCCA GCACCCGGGC CCTGGAGCCT
    CCTGCGGAGG ATCGCGGCGA TGAGGTGGTC CTGAGGCAGA AGCCCCCGAC GGGCCGCAAG
    GTTCAGCTGA CCCCCGCAAG ACAGATGAAC CTTGGATTTG GTGACGAGTC CCCAGAGCCA
    GAGGCCAGTG GGCGAGGGGA ACGCCTGGGC AGGAAGGTGG CCCCTTTGGC CACCACCGAA
    GACTCTCTGG CTTCCATCCC CTTTATTGAT GAGCCCACCA GCCCCAGCAT TGACCTCCAA
    GCCAAGCACG TCCCTGCCTC TGCTGTGGTC TCCAGTGCCA TGAACTCAGC CCCTGTCCTG
    GGCACCAGCC CATCTTCCCC GACCTTCACT TTCACCCTCG GACGCCATTA CTCGCAGGAC
    TGCAGCAGCA TCAAGGCTGG CCGCCGCTCC TCCTACCTGC TGGCCATCAC CACGGAGCGC
    TCCAAGTCCT GCGATGATGG ACTCAACACC TTCCGCGACG AGGGCCGGGT TCTGCGGCGC
    CTGCCAAACC GCATACCCAG CCTGCGGATG CTCCGGAGCT TCTTCACCGA CGGGTCCTTG
    GATAGCTGGG GCACCTCTGA AGATGCTGAC GCTCCTTCTA AGCGACACTC AACCTCTGAC
    CTCTCAGATG CGACCTTCAG CGATATCAGG AGAGAAGGCT GGTTGTATTA TAAGCAGATT
    CTCACCAAGA AGGGGAAGAA AGCGGGCAGC GGCCTGCGCC AGTGGAAGCG GGTGTACGCC
    GCGCTGCGGG CGCGCTCGCT CTCGCTGAGC AAGGAGCGGC GGGAGCCCGG GCCGGCGGCG
    GCGGGGGCTG CGGCGGCCGG CGCAGGTGAG GACGAGGCGG CGCCCGTCTG CATCGGCTCC
    TGCCTCGTGG ACATCTCCTA CAGCGAGACC AAGAGGAGGC ACGTGTTCCG GCTGACCACC
    GCTGACTTCT GTGAATATCT CTTTCAGGCT GAGGACCGGG ATGACATGCT GGGCTGGATC
    AGAGCGATCC GGGAGAACAG CAGGGCCGAG GGCGAGGACC CCGGCTGTGC CAACCAAGCT
    CTGATCAGCA AGAAGCTTAA CGATTATCGC AAAGTGAGCC ATAGCTCTGG GCCCAAAGCT
    GATTCCTCCC CCAAAGGCTC TCGCGGCCTG GGGGGCCTCA AGTCTGAGTT CCTCAAGCAG
    AGTGCGGCAC GTGGCCTCAG GACTCAGGAC CTGCCCGCAG GGAGCAAGGA TGACAGTGCT
    GCAGCCCCCA AAACCCCCTG GGGCATCAAC ATCATCAAGA AAAATAAGAA GGCCGCTCCG
    AGGGCGTTTG GGGTCAGGCT GGAGGAGTGC CAGCCAGCCA CGGAGAACCA GCGCGTCCCC
    TTAATCGTGG CTGCATGCTG TCGCATTGTG GAGGCACGAG GGCTGGAGTC CACAGGCATT
    TACCGAGTGC CCGGCAACAA TGCAGTGGTG TCCAGCCTAC AGGAGCAGCT CAACCGCGGG
    CCTGGTGACA TCAACCTGCA GGATGAGCGC TGGCAAGACC TCAATGTGAT CAGCAGCCTG
    CTCAAGTCCT TCTTCCGAAA GCTGCCCGAG CCTCTTTTCA CTGATGACAA ATACAACGAC
    TTCATCGAGG CCAACCGCAT TGAGGACGCG CGGGAGCGAA TGAGGACGCT GCGGAAGCTG
    ATCCGGGATC TCCCAGGACA CTACTATGAA ACGCTCAAAT TCCTTGTGGG CCATCTCAAG
    ACCATCGCTG ACCACTCTGA GAAAAACAAG ATGGAACCCC GGAACCTGGC CCTGGTCTTT
    GGGCCGACAC TGGTGAGGAC GTCTGAGGAC AACATGACAG ACATGGTGAC CCACATGCCT
    GACCGCTACA AGATCGTGGA GACACTGATC CAGCACTCAG ACTGGTTCTT CAGTGACGAA
    GAGGACAAGG GAGAGAGAAT TCTACCACCT GTAGTTCAGC CAAGTCCAAG GTACGTATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016880391.1
    CDS37..3396
    Translation

    Target ORF information:

    RefSeq Version XM_017024902.1
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho GTPase activating protein 23 (ARHGAP23), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024902.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGAATGGAG TCGCCTTCTG CCTGGTCGGG ATCCCGCCCC GCCCGGAGCC CCGGCCCCCA 
    CAGCTGCCAC TGGGCCCAAG AGATGGGTGC TCTCCTAGGC GCCCCTTCCC CTGGCAGGGG
    CCGAGGACGC TGCTGCTGTA CAAAAGTCCC CAGGACGGCT TTGGCTTCAC TCTGCGCCAC
    TTCATCGTGT ACCCACCCGA GTCGGCCGTG CACTGCAGCC TGAAGGAGGA AGAGAATGGA
    GGCCGTGGAG GAGGACCCTC CCCCCGGTAC CGCCTGGAGC CCATGGACAC CATCTTTGTC
    AAGAATGTGA AGGAAGACGG CCCTGCCCAT AGGGCGGGGC TTCGCACAGG AGACCGGCTG
    GTAAAGGTGA ATGGGGAAAG CGTCATTGGG AAGACCTACT CTCAGGTCAT AGCTCTGATC
    CAGAATAGTG ATGACACTCT GGAGCTGTCT ATCATGCCCA AGGACGAGGA CATCCTCCAG
    CTGGCCTACT CCCAGGATGC CTACCTGAAA GGGAACGAGC CGTATTCTGG AGAGGCCCGC
    AGCATCCCAG AGCCACCCCC GATCTGCTAC CCCCGCAAGA CCTACGCCCC TCCTGCCCGG
    GCCTCCACCA GGGCCACTAT GGTGCCTGAG CCCACCTCAG CACTGCCCAG TGACCCCCGG
    AGTCCTGCTG CCTGGAGTGA CCCGGGGCTC CGTGTGCCAC CTGCTGCCCG TGCCCACCTG
    GACAACTCTT CCTTGGGGAT GAGCCAGCCC CGCCCCAGCC CTGGTGCCTT CCCCCACCTC
    TCCTCGGAGC CCCGGACGCC CCGTGCCTTC CCAGAGCCTG GCAGCCGGGT GCCCCCCAGC
    AGACTGGAGT GCCAGCAGGC CTTGTCACAC TGGCTGTCAA ACCAGGTACC CCGCCGGGCG
    GGGGAGAGAC GGTGCCCAGC CATGGCCCCC CGGGCCCGCA GCGCCTCCCA GGACCGGTTG
    GAGGAGGTGG CTGCCCCCCG CCCGTGGCCC TGCTCCACCT CCCAGGATGC TTTGAGCCAG
    CTGGGCCAGG AGGGCTGGCA CCGAGCTCGC TCAGATGACT ACTTGAGCCG GGCCACCCGT
    TCTGCCGAGG CACTGGGGCC AGGGGCACTG GTGTCACCCC GCTTTGAGCG GTGTGGCTGG
    GCTTCCCAGC GTTCGTCTGC CCGCACCCCC GCCTGCCCAA CTCGGGACCT GCCAGGGCCC
    CAGGCCCCAC CCCCGTCTGG CCTGCAGGGC CTGGATGACC TCGGGTACAT CGGCTACCGG
    AGCTACAGCC CATCATTCCA GCGCCGGACC GGCCTCCTCC ATGCGCTCTC CTTCCGGGAC
    TCACCCTTTG GGGGGCTGCC TACCTTCAAC CTGGCCCAGT CCCCTGCGTC ATTCCCACCA
    GAGGCCTCCG AGCCACCCAG GGTTGTACGG CCGGAACCCA GCACCCGGGC CCTGGAGCCT
    CCTGCGGAGG ATCGCGGCGA TGAGGTGGTC CTGAGGCAGA AGCCCCCGAC GGGCCGCAAG
    GTTCAGCTGA CCCCCGCAAG ACAGATGAAC CTTGGATTTG GTGACGAGTC CCCAGAGCCA
    GAGGCCAGTG GGCGAGGGGA ACGCCTGGGC AGGAAGGTGG CCCCTTTGGC CACCACCGAA
    GACTCTCTGG CTTCCATCCC CTTTATTGAT GAGCCCACCA GCCCCAGCAT TGACCTCCAA
    GCCAAGCACG TCCCTGCCTC TGCTGTGGTC TCCAGTGCCA TGAACTCAGC CCCTGTCCTG
    GGCACCAGCC CATCTTCCCC GACCTTCACT TTCACCCTCG GACGCCATTA CTCGCAGGAC
    TGCAGCAGCA TCAAGGCTGG CCGCCGCTCC TCCTACCTGC TGGCCATCAC CACGGAGCGC
    TCCAAGTCCT GCGATGATGG ACTCAACACC TTCCGCGACG AGGGCCGGGT TCTGCGGCGC
    CTGCCAAACC GCATACCCAG CCTGCGGATG CTCCGGAGCT TCTTCACCGA CGGGTCCTTG
    GATAGCTGGG GCACCTCTGA AGATGCTGAC GCTCCTTCTA AGCGACACTC AACCTCTGAC
    CTCTCAGATG CGACCTTCAG CGATATCAGG AGAGAAGGCT GGTTGTATTA TAAGCAGATT
    CTCACCAAGA AGGGGAAGAA AGCGGGCAGC GGCCTGCGCC AGTGGAAGCG GGTGTACGCC
    GCGCTGCGGG CGCGCTCGCT CTCGCTGAGC AAGGAGCGGC GGGAGCCCGG GCCGGCGGCG
    GCGGGGGCTG CGGCGGCCGG CGCAGGTGAG GACGAGGCGG CGCCCGTCTG CATCGGCTCC
    TGCCTCGTGG ACATCTCCTA CAGCGAGACC AAGAGGAGGC ACGTGTTCCG GCTGACCACC
    GCTGACTTCT GTGAATATCT CTTTCAGGCT GAGGACCGGG ATGACATGCT GGGCTGGATC
    AGAGCGATCC GGGAGAACAG CAGGGCCGAG GGCGAGGACC CCGGCTGTGC CAACCAAGCT
    CTGATCAGCA AGAAGCTTAA CGATTATCGC AAAGTGAGCC ATAGCTCTGG GCCCAAAGCT
    GATTCCTCCC CCAAAGGCTC TCGCGGCCTG GGGGGCCTCA AGTCTGAGTT CCTCAAGCAG
    AGTGCGGCAC GTGGCCTCAG GACTCAGGAC CTGCCCGCAG GGAGCAAGGA TGACAGTGCT
    GCAGCCCCCA AAACCCCCTG GGGCATCAAC ATCATCAAGA AAAATAAGAA GGCCGCTCCG
    AGGGCGTTTG GGGTCAGGCT GGAGGAGTGC CAGCCAGCCA CGGAGAACCA GCGCGTCCCC
    TTAATCGTGG CTGCATGCTG TCGCATTGTG GAGGCACGAG GGCTGGAGTC CACAGGCATT
    TACCGAGTGC CCGGCAACAA TGCAGTGGTG TCCAGCCTAC AGGAGCAGCT CAACCGCGGG
    CCTGGTGACA TCAACCTGCA GGATGAGCGC TGGCAAGACC TCAATGTGAT CAGCAGCCTG
    CTCAAGTCCT TCTTCCGAAA GCTGCCCGAG CCTCTTTTCA CTGATGACAA ATACAACGAC
    TTCATCGAGG CCAACCGCAT TGAGGACGCG CGGGAGCGAA TGAGGACGCT GCGGAAGCTG
    ATCCGGGATC TCCCAGGACA CTACTATGAA ACGCTCAAAT TCCTTGTGGG CCATCTCAAG
    ACCATCGCTG ACCACTCTGA GAAAAACAAG ATGGAACCCC GGAACCTGGC CCTGGTCTTT
    GGGCCGACAC TGGTGAGGAC GTCTGAGGAC AACATGACAG ACATGGTGAC CCACATGCCT
    GACCGCTACA AGATCGTGGA GACACTGATC CAGCACTCAG ACTGGTTCTT CAGTGACGAA
    GAGGACAAGG GAGAGAGAAT TCTACCACCT GTAGTTCAGC CAAGTCCAAG GTACGTATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

  • PubMed

    GWAS meta-analysis and replication identifies three new susceptibility loci for ovarian cancer.
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    Identification and characterization of human ARHGAP23 gene in silico.
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